Saturday, 16 November 2013

AC DC Tig Welder Alupulse 200

AC DC Tig Welder Alupulse 200

ACDC Tig  Welder Alupulse 200 Amp Inverter Welding Machine



200 Amp ACDC Tig Welder - Tokentools Alupulse 200 200 Amp ACDC Tig Welder – Tokentools Alupulse 200[/caption]





The Tokentools Alupulse 200 is a 240 volt full arc control, AC & DC TIG / MMA, HF TIG welding power source. Loaded with features like high frequency start, up and down slope, adjustable AC frequency with a massive 10 to 300Hz range, repeat (latch) function, MMA welding functionality you’ve got the penultimate unit designed for precision AC DC TIG / MMAW welding of all weldable materials. The machine features push button activated HF Arc Ignition and a Gas Solenoid for automatic control of the shielding gas. A large capacity fan ensures years of high duty cycle operation. Operation is quite straight forward via the oil /acid resistant membrane control panel and the steel case will provide superior protection against accidental bumps. All IGBT transistors are manufactured by Infineon, chosen for their ability to provide dependable power in the toughest of environments. With the Tokentools Alupulse 200 you will have one tough inverter AC DC TIG MMA welder ready to attack and conquer any welding job you put to it.


Tig Torch Parts

Tig Torch Parts

Tig torch parts are available from the online store run by Tokentools with free delivery for orders in excess of $200Aud. The category on the web store Tig Torch Parts contains a breakdown of the components required by most welders.


tig torch parts tig torch parts[/caption]


Tig Torch Ceramic Nozzles available are available in 4/16, 5/16, 6/16, 7/16, 8/16, 10/16, 12/16 for standard size collet bodies (WP17, 18, 26) and also to fit a gas lens. Nozzles for WP9 and WP20  size torch heads are also available in the same orifice sizes for standard collet bodies or gas lenses.


Tig Torch Collets for WP17,18,26 in 1.6mm 2.4mm 3.2mm and collets for WP9, 20 in 1.6mm 2.4mm.


Tig Torch Gas Lens available for WP17, 18, 26 and WP9, 20. All gas lenses are shipped with nylon cup adapter gasket.


Tig Torch Back Caps in short, stubby or small for WP17, 18, 26 and long or short for WP9, 20


Cable sheath covers – Zip on denim cotton cable covers to keep your welding cables clean and tidy. Simply zip over your existing cover.


Electrical Plugs – An assortment of dinse plugs and sockets, control panel sockets, tig torch switches also.


Tig Torch Heads – Flex heads and rigid Tig Torch heads are available for WP9, WP17, WP18, WP20, WP26 tig torches.


Visit the website for more information about the tig torch parts available from Tokentools online welding supply store.

Friday, 11 October 2013

Where to buy welders in Australia

Where to buy welders in Australia

Buying a welder in Australia has never been easier thanks in part to the technology that brings the consumer and vendor together. That technology is the net, we use it everyday for communications, banking and the news however it’s ability to plonk a brand new welding machine onto our doorstep is incredible and has never been easier. At Tokentools we aim to be Australia’s best place to buy welders  in Australia by providing a great user experience with the best and most modern new sales platform. A selection of welding machines and industrial products for different Australian workplace applications are available on the website.


Tig welders in AustraliaAll of our welding machines  are divided into several subcategories to make your search easier and navigation friendlier. Please select an appropriate category to perform your browse faster and more accurately. Be sure to check out the digital ACDC Tig  welders here

Thursday, 10 October 2013

Inverter welders for purchase at Tokentools

Inverter welders for purchase at Tokentools

Inverter welders available for purchase

Inverter welders available for purchase


Inverter welding machines available for purchase from Tokentools.com.au with immediate shipping. Any inverter welder ordered and paid for before noon ships the same day. Visit the tokentools website, link adjacent —->>>> and find your new welding machine now.


We stock Mig Tigs, Arc welders and plasma cutters. You can buy the entire welding kit from the machine to the safety gear.


Having specifications like MIG (GMAW/FCAW), Stick (MMAW), Lift TIG (GTAW) process, an input voltage supply of 240 volt AC +/-5%, 50Hz (15A plug) and current range from 5 to 1000 amps make our Tokentools welding machines the right industrial tool to use for all types of welding processes. Not only for inverter welders but for all types of our welders we offer our industry first and industry leading Five-Year Warranty, 30-Day Money Back offer. These excellent policies demonstrate the confidence in our quality and after selling in Australia for over a decade we are still around to prove our longevity.  We never compromise on quality and provide overnight  delivery between Melbourne and Brisbane. These are some of the important reasons that our customer base has been growing exponentially day after day. Our inverter welders come with genuine industry standard torches and accessories. You can buy spares and consumables from us or your local welding supplier.


Call the Sydney office on 02 8014 1005 for friendly assistance by knowledgeable staff.

Monday, 7 October 2013

Buy Welders Online Save Time Weld Better

Buy Welders Online Save Time Weld Better

Buy welders online - an example welding machine

Buy welders online and save time. Become a better welder.


Buying welders online has been the traditional method of manifesting savings for the savvy shopper but a new market segment is emerging. Online welder shopping is quickly becoming a viable option for many busy individuals also. Australians are known for working ridiculously long hours and the time earned as “me time” is not easily spent on a dash to the welding store. Instead customers prefer to order online, have their welding equipment delivered to their door and when “me time” arrives they get into this very addictive occupation.


Tokentools have been selling welders online for over a decade and are experts at getting your welding machine delivered to your door quickly and without any fuss. A generous 5 year warranty protects consumers and quality accessories enhance the welding package. Visit the Online Welding Store


 


 

Tuesday, 24 September 2013

AC DC Tig Welders Vs DC Tig Welders

AC DC Tig Welders Vs DC Tig Welders

Customers often ask what benefits AC DC tig welders have when compared to the humble DC Tig welder. Depending on the model of Tig welder will dictate the optional settings however the main difference is the ability to weld aluminium. If you are in the USA, ok ALUMINUM.


Alternating current or AC when used in an ACDC Tig welding machine allows electrons to flow to and from in the welding arc. When the electrons flow from tungsten to job we get penetration, when the electrons flow from job to tungsten you get cleaning action as the aluminium oxide layer is blown from the surface of the workpiece.



DC Tig welding machines

DC Tig Welders


 


 


 


 


 


 


 


 


 


 


 


 


From the information provided above you can see that DC Tig welders can be used to tig weld all materials except thos with a refractory oxide layer such as Aluminium. If you need help with your selection of an ACDC Tig please give our staff a call on 1300 881 991 and we will be happy to help you.

Saturday, 21 September 2013

Plasma Cutters - Find Shop Compare Buy Online Australia

Plasma Cutters - Find Shop Compare Buy Online Australia

You saw a Plasma Cutter in action and were instantly attracted to it’s potential right? It happens to most blokes. plasma cutters are incredible machines and smart operators can put them to use to generate incoming work. The relatively low cost of  plasma cutting equipment means that sales have increased year on year. In the last 12 months the amount of plasma cutters sold in Australia has increased by 37% over sales figures from the previous year. Plasma cutters work by ionising dry air in the torch head which adds and subtracts electrons of the atoms which comprise atmospheric gases and forms a plasma stream. The plasma stream is charge neutral, extremely hot and is able to melt metals instantly hence why they are so cool. As long as you point the plasma cutter torch to the metal and keep feeding it material it will keep blasting that material out of the way.


Plasma Cutting Equipment Machines

Plasma Cutters Machines Equipment


If you are looking to buy plasma cutters for your workplace then please give our staff a call on 1300 881 991 and we will be able to assist you in purchasing the right plasma cutting machine for your application.


 


 


 


 


 


 


 


 


 


 


 


Copyright Tokentools Pty Ltd Australia

Saturday, 7 September 2013

Welders Welder Sale Australia

Welders Welder Sale Australia

Easy selection of Welding machines, bolt on options and a range of accessories make your online shopping experience a snap with Tokentools Welders. Our updated web interface allows you to add options to suit your needs and configure products the way you want them.


 


available welder options are enacyed by selecting from the drop down toolbar

Available welder options are enacyed by selecting from the drop down toolbar



So if you need welders, our welders for sale options are sure to be of benefit. You may also call our staff on 1300 881 991 Mon – Fri between 8AM and 4PM. Our warehouse is located at 6/9-11 Willow Tree Rd Wyong NSW 2259.

Saturday, 31 August 2013

Mig Spool Gun Mig Torch Care

Mig Spool Gun Mig Torch Care

Your Welding processes, like every other part of your business, offers opportunities toconserve resources. Consider these 10 money-saving tips for MIG gun care and maintenance as agood first step. And don’t be surprised when you find these tips improve your welding performance along the way!


1: Protect your assets


Keep your nozzles, gas diffusers andcontact tips in the original package in which they were shipped until you are ready to use them. Doing so prevents scratches and/or dents where spatter can accumulate and cause the consumables to fail prematurely. It also prevents dirt, oil or other debris from adhering to the consumables and inadvertently entering the weld puddle.


Remember, proper storage and handling doesn’t just lower your actual costs for consumables, it can also prevent weld defects that require costly rework.


2: Get a neck up


Choose the most appropriate neck foryour MIG welding application in order to increase comfort and control, and save money. Rotatable necks, for example, adjust without tools so that you can quickly change neck angles once you’ve determined your desired position. These types of necks are especially useful if you find yourself welding on many different applications and angles throughout the day, and they minimize costs for inventory and changeover. For hard-to-reach areas, you may also want to consider a neck coupler, which allows you to connect two existing necks together to extend your reach ­- again without the cost of purchasing a new or specialized neck.


Flex necks are also a good option for saving money, and gaining greater comfort and control, particularly for applications with tighter joints. You can bend these necks to multiple angles to work around corners or get into small spaces without the expense of stocking different neck angles.


3: Inspect, clean and tighten regularly


Regularly perform a visual inspection of your nozzle – inside and outside – to look for spatterbuild-up. If there is accumulation, either clean the nozzle with a tool designed specifically for the job or replace the nozzle if necessary. During your inspection, also check that the nozzle, contact tip and retaining head are tightened properly, as these components can naturally loosen during welding.


Inspecting and tightening your consumablesregularly (several times during a welding shift is ideal) help ensure good shielding gas coverage, reliable electrical conductivity and consistent weld quality.


4: Trim it properly


Always trim your MIG gun liner according to the manufacturer’s recommendations, using the proper tools and cutting it to the correct length. Too long of a liner can cause kinking, while cutting it too short allows debris to build up between the liner and the gas diffuser. Either way, the wrong liner length can cause poor wire feeding and premature failure of both the liner and the contact tip. When possible, use a liner gauge to determine the proper length for your particular liner and be certain that there are no burrs or sharp edges after you cut it.


Also, keep the liner away from contaminants (e.g., don’t let it drag on the floor) during installation and be sure your hands or gloves are clean. These precautions help prevent contaminants from entering the weld puddle and causing costly weld quality issues.


5: Line it up


Consider using a front-load MIG gun liner to ease and speed liner replacement. This type of liner cuts installation time nearly in half compared to using a rear-loading liner, saving you downtime and unnecessary labor costs for changeover. Some manufacturers offer a spring-loaded module that works in conjunction with a front-load liner to help minimize issues if you accidentally trim the liner to an incorrect length. These modules are housed in the power pin and put forward pressure on the liner after installing it from the front of the gun. The modules allow up to 1 inch of forgiveness if the liner is too short.


There are also jump liners available. These replace only the most commonly worn and clogged liner area – from the neck to the contact tip – to reduce the amount of time a gun is offline and minimize inventory for full-length liners. These jump liners enable quick and easy neck change-out so the MIG gun can be easily adapted to fit multiple applications.


6: Lighten up


When appropriate, switching from heavy-duty contact tips to standard-duty ones can help lower your overall consumable costs, while still providing you with reliable welding performance. If you have lower heat applications, brief arc-on times for short welds or tacks, or if you are using mixed shielding gases and small diameter wires, standard-duty contact tips may be a better option and they cost less.


You can also use these types of contact tips if you have applications with restricted access, as the smaller outside diameter can help increase gas coverage and reduce the nozzle’s bore size, making it easier to reach tough joints.


7: Stay connected


Look for non-threaded contact tips that connect or seat securely with the gas diffuser. This type of design provides consistent electrical conductivity and helps dissipate heat more readily. That’s important, since cooler running consumables last longer and provide more consistent performance.


A nozzle with a thread-on design helps keep the contact tip centered for better weld placement and it can minimize the opportunity for spatter. This type of design can also withstand demanding jobsite use and abuse.


8: Keep it smooth and clean


As an additional defense against spatter accumulation, purchase nozzles that have a smooth, non-porous surface. Be sure that the nozzles are free of any sharp edges or flat spots that would further allow spatter to adhere. As when handling the liner, be sure you have clean hands or gloves when you are handling or installing your nozzle. Dirt, oil, grease or other debris can easily adhere to nozzles and later enter the weld puddle, causing weld defects. These contaminants can also cause premature failure of the component.


9: Size it right


Use the shortest length MIG gun cable possible for your welding application, as it helps prevent kinking and premature wear of both the cable and the MIG gun liner. It also helps prevent wire-feeding problems that could lead to an erratic arc, poor weld quality and unnecessary downtime for rework or consumable replacement. Steel monocoil cables are also an excellent means to prevent kinking.


Also, remember to choose the correct diameter liner and contact tip for your welding wire, as this prevents similar problems and helps extend the life of these consumables.


10: Think long-term


Whenever possible, purchase MIG guns and Mig consumables that are backed by a reliable manufacturer’s warranty, and use all guns and consumables as intended so as not to void the terms and conditions.


Also, consider the up-front cost versus the long-term savings of purchasing sturdier and more expensive consumables. They will likely last longer, reducing downtime associated with changeover and the cost of the consumables themselves.


Keep these tips in mind and you can get back to welding faster while conserving your resources.


 

Sunday, 25 August 2013

Pulse Tig Welders

Pulse Tig Welders

The latest in Pulse tig welders is available from Tokentools. We have different models available in DC Pulse Tig welder such as the TIG160P and the TIG200P. In the ACDC welder range we have our AC DC Pulse Tig welders available in standard ACDC Tig or Multi Process Tig Welder.


Digital ACDC Tig welder control panel

ACDC Pulse Tig Welders



Pulse Tig welders vary the amount of current during the Welding process. They use a peak welding current to perform the fusion process and a background welding current to allow the material to rest and solidify between pulse welding cycles. More importantly the base current cycle allows the welding arc to remain active at a level of energy that does not create fusion of the parent material.


If you are looking for pulse tig welders for sale please give our staff a call on 1300 881 991.

Saturday, 17 August 2013

Tig Welding Guide

Tig Welding Guide

TIG Welding guide




GUIDE TO TIG WELDING


This is a free basic guide on how to do TIG welding using a TIG welder (Tungsten Inert Gas)


TIG welding is a skill that needs to be developed over time, with a piece of metal in front of you and with a welding torch in your hands. TIG welding requires patience and practice.


TIG Welder 240V AC/DC 200amp


The Tokentools Alupulse AC/DC TIG Welder used in this guide.




1. WHAT IS TIG WELDING?



  • TIG Welding can be used to weld aluminium, copper, titanium etc and even two dissimilar metals. This process is ideally suited to handling tricky welds such as S-Shapes, curves, corners or where the weld is going to be visible and where accuracy and finish is important. TIG welding allows a greater variety of metals to be welded than other forms of welding.




  • With superior arc and weld puddle control, TIG welding allows you to create clean welds when appearances count. Because the heat input is often controlled by pressing on a foot pedal, similar to driving a car, TIG welding allows you to heat up or cool down the weld puddle giving you precise weld bead control. This makes TIG welding ideal for cosmetic welds like sculptures, architectural and automotive welds.




  • The TIG welder generates heat via an arc of electricity jumping from a tungsten metal electrode to the metal surface that you intend to weld which is usually aluminium or steel.




  • TIG stands for Tungsten Inert Gas named from the tungsten electrode and the shield of inert gas (Argon or argon mixture) surrounding it.




  • A TIG welder needs a filler rod to provide the welding bead when joining two pieces of metal together.




  • TIG welding produces no sparks or spatter because only the necessary amount of filler metal is added to the welding pool.




  • TIG welding produces no smoke and fumes unless the base metal contains contaminants or has a dirty surface.




  • TIG welding doesn’t produce slag and requires no flux because the argon gas protects the weld pool from contamination.



An exapmple of TIG welding on aluminium


2. CHOOSING AND PREPARING THE TUNGSTEN ELECTRODE


A tungsten electrode is required when TIG welding and this is inserted into the welding torch. This electrode carries the welding current to the work. For welding aluminium the most popular choice is a Zirconiated TIG tungsten electrode (White tipped), for steel the most popular is a Thoriated TIG tungsten electrode (Red Tip)


A number of tungsten alloys are also available (including Thoriated Tungsten)


There are different sizes of tungsten’s available which relate to the welding power you are using for a particular job. It is important to use the correct size of electrode for the welding power you are going to use. See below:







































ELECTRODE



RATINGS



Electrode Diameter (mm)



2% Thoriated on DC

(amps)



Pure Tungsten on DC (amps)



Zirconiated Tungsten on AC (amps)



1.0



80



30



60



1.6



150



80



120



2.4



250



130



180



3.2



400



180



250



4.0



500



240



320



4.8



750



300



390



6.4



1000



400



525


Preparation of the tungsten electrode is important. The end needs to be ground to a point (see images below). Brand new electrodes will always need to be prepared in this way. When welding on aluminium the tungsten will begin to form a ball, this is perfectly normal. When welding steel the electrode will always stay pointed.





Correct grinding of a tungsten electrode tipInorrect grinding of a tungsten electrode tip

Below you can see me holding a new tungsten electrode ready to start the grinding process. I prefer to use the side of a clean wheel as I have more control. Position the tip where you feel comfortable. Remember to ensure all health and safety requirements are taken when using a grinding wheel.





Grinding a tungsten electrodeTIG torch and switch

The picture on the right hand side of this page shows the tungsten in the end of the tig torch, you can see the ball formed on end of the tungsten as this has been used for aluminium welding.


With the introduction of new power source technologies, the use of pure tungsten is decreasing.


Pure tungsten melts at a lower temperature causing it to easily form a rounded ball at the tip. When the ball grows too large, it interferes with your ability to see the weld puddle and causes the arc to become unstable.


Ceriated tungsten can withstand higher temperatures and works very well with the new squarewave and inverter machines for the following reasons:



  • Holds a point longer and starts very well at low amperages.




  • Can be used on both AC and DC polarities. When welding aluminum, it has become very acceptable to grind a point on ceriated tungsten (especially when welding on thinner materials).




  • Allows welding amperages to be increased by 25-30% compared to Pure tungsten of the same diameter.



3. SAFTEY GEAR


TIG welding can be a pretty safe thing to do so long as you follow a few important safety precautions. TIG welding produces lots of heat and lots of harmful light, you need to take a few steps to protect yourself.


The light that is generated by any form of arc welding is extremely bright and contains UV and Infra Red radiation. It will burn your eyes and your skin just worse than the sun so YOU MUST protect yourself. The first thing you will need to weld is a welding helmet. I am wearing an auto-darkening welding helmet below. They are really helpful if you are going to do a lot of welding and make a great investment if you think you will be working with metal often. Manual masks require you to jerk your head dropping the mask into position or require to use a free hand to pull the mask down. This allows you to use both your hands to weld, and not worry about the mask. Always ensure to protect others from the light as well and use a welding screen to make a border around yourself. The light has a tendency to draw on lookers who might need to shielded from being burned too.


Wear gloves and leathers to protect yourself from molten metal splattering off of your work piece. Some people like thin tig welding gloves for welding so you can have a lot of control. In TIG welding this is especially true. The leathers will not only protect your skin from the heat produced by welding but they will also protect your skin from the UV light produced by welding. If you are going to be doing any amount of welding more than just a minute or two you will want to cover up because UV burns happen fast!


If you are not going to wear leathers at least make sure that you are wearing clothing made from cotton. Plastic fibers like polyester and rayon will melt when they come into contact with molten metal and will burn you. Cotton will get a hole in it, but at least it won’t burn and make hot metal goop.


Do not wear open toed shoes or synthetic shoes that have mesh over the top of your toes. Hot metal often falls straight down and I have burned many holes through the tops of my shoes. Molten metal + hot plastic goo from shoes = no fun. Wear leather shoes or boots if you have them or cover your shoes in something non-flammable to stop this.


Weld in a well ventilated area. Welding produces hazardous fumes which you shouldn’t breathe in if you can avoid it. Wear either a mask, or a respirator if you are going to be welding for a prolonged amount of time.


Fire hazards
Molten metal can spit several feet from a weld. Grinding sparks are even worse. Any sawdust, paper or plastic bags in the area can smolder and catch fire, so keep a tidy area for welding. Your attention will be focused on welding and it can be hard to see what’s going on around you if something catches fire. Reduce the chance of that happening by clearing away all flammable objects from your weld area.

Keep a fire extinguisher beside the exit door from your workshop. CO2 is the best type for welding. Water extinguishers are not a good idea in a welding shop since you are standing next to a whole lot of electricity.


Important Safety Warning
DO NOT WELD GALVANIZED STEEL. Galvanized steel contains a zinc coating that produces carcinogenic and poisonous gas when it is burned. Exposure to the stuff can result in heavy metal poisoning (welding shivers) – flu like symptoms that can persist for a few days, but that can also cause permanent damage.


Welder in welding mask and protective clothing

Gloves, auto-darkening helmet and a suitable cotton based jacket are essential to keep safe


4. PREPARING FOR THE WELD


Before you start welding make sure things are properly setup at both the welder and on the piece you are about to weld.


The Welder
Getting the correct settings for type of weld you are doing requires some trial and error, especially if you are new to using tig welders. Some basic parameters are consistent to all TIG welding whereas many other functions may only be available on higher specification machines. For welding today we will be using a Tokentools Alupulse 200 which is a fully featured AC DC Tig Welder and in the picture below you can see the front panel with a description of the controls and what they actually do.


TIG Welder TIG201 front panel view

Fig 4


1. Base current control


This adjusts the main welding current and is shown in L.E.D (Fig 4.11)


2.Pulse peak current adjustment


This sets pulse amperage and must be set above the base (main) current amperage. If set to zero pulse welding is disabled.


3.Pulse frequency adjustment


This sets how often pulse will occur 0.5 to 25hz


4.Up slope


Adjustment 0-5 seconds. The main welding current raises from minimum amperage to main current selected in time selected when weld started


5.Pulse width


Pulse width adjustment sets the length of pulse 10% to 90% of a pulse cycle. If you are pulsing at 1 pulse per second (pps) then this is 0.1 to 0.9 of a second however if youy are pulsing at 25 pps then this is (0.1 to 0.9 seconds) divided by 25 as there are now 25 pulses per second.


6.Down slope


Down-Slope adjustment 0-5 seconds. The main welding current decreases from main amperage to minimum amperage in time selected when weld finished, sometimes known as crater fill.


7.AC / DC Selector switch


This switch selects either DC for welding steels or AC for welding alloys


DO NOT SWITCH WHEN WELDING AS DAMAGE TO MACHINE CAN OCCUR.


8.2/4 Way selector switch


2/4 Step trigger mode switch TIG welding can either be done in 2 or 4 step mode.


When the trigger mode is in the 2 step position the following sequence will occur


Press and hold the TIG torch switch to start sequence.


The machine will open gas valve to start flow of shield gas, after a 0.5 seconds pre-flow time to purge air from torch hose the welding output of machine will be turned on and the arc will be started. After the arc is started the output current will increase from the start (min) current to base (main) current in time selected by slope-up. Main power will be achieved instantly if no slope up is in the 0 minimum position.


Release the TIG torch switch to end sequence.


The machine will now decrease output to finish (min) current in time set by slope-down, once at finish (min) current the machine will stop output and the gas valve will continue to operate for the selected time (post flow)


Possible variations of this standard sequence are shown in diagram below. It is possible to press and hold tig torch switch a second time during downslope time to restart. After the switch is pressed the output current will raise to base (main) current


TIG torch switch operation


When the trigger mode is in the 4 step position the following sequence will occur


TIG torch switch trigger operation


Press and hold the TIG torch switch to start sequence.


The machine will open gas valve to start flow of shield gas, after a 0.5 seconds pre-flow time to purge air from torch hose the welding output of machine will be turned on and the arc will be started. After the arc is started the output current will be at start (min) current


This condition can be maintained as long as required.


Release the TIG torch switch to go to step 2


The machine will now increase output to base (main) current in time set by slope-up.


Press and hold the TIG torch switch when main weld is complete


The machine will now decrease the welding output current to finish (min) in down-slope time set. Once at finish (min) output you can release the TIG torch switch to end weld the gas post-flow will continue to run for set time.


9.MMA / TIG mode switch


MMA-TIG mode switch. Switches between TIG (GTAW) & MMA STICK (SMAW) welding


10.AC squarewave frequency adjustment


AC Squarewave frequency adjustment 20-300Hz.


Traditional TIG welders have a fixed frequency of 50Hz, the Alupulse advanced technology allows AC frequency adjustment from 10-2300hz, as you turn up the frequency the width of arc from tungsten decreases allowing more control of weld pool and an increase travel speed


The pitch noise of weld will increase when AC frequency is turned up, this is normal.

100 – 120Hz is the (sweet spot) for most AC welding.


11.LED Display


3 digit LED meter is used to display the pre-set (before welding) amperage and actual amperage (when welding).


12.Gas post flow adjustment


Gas post flow adjustment 1 to 25 seconds. The gas keeps flowing after weld has finished, this cools & stops tungsten from getting contaminated.

Note: Gas pre-flow time is fixed at 0.5 seconds in TIG mode but no pre-flow time will occur if the arc is restarted during post flow time as gas is already flowing.


13.AC squarewave balance (SP%)


SP% AC Squarewave balance control 20% to 80%


Set at 50% this provides balanced control suitable for most AC Welding. 80% is max cleaning / least penetration and 20% is least cleaning / max penetration.


When welding dirty/contaminated material more cleaning may need to be selected.


Tip. If you are welding close to the tungsten limits, I.E 200amps on a 2.4mm tungsten and the end of tungsten is wobbling and falling off, turning down the SP% will give better tungsten stability



  1. Arc force (Stick / SMAW only)


    This provides better arc starting when in MMA stick mode, useful when you are welding dirty/rusty material or cold/damp welding electrodes.



The Metal
An earthing clamp should be present and attached to your workpiece or, as in the picture below, the bench. The other end should be attached to your welding machine. Some kind of large metallic area is necessary to let electricity flow through your metal. If you don�t have a welding bench then a large sheet of metal will do the job. Be sure to securely clamp down the metals you are working on


TIG welding earth clamp


1. Earth clamp secured to the workpiece or bench


 


5. GETTING STARTED ON THE WELD


Holding the torch
Hold the torch as shown in the photograph below. The tungsten should be raised from the surface of the work by about 3-6mm. Do not let the tungsten touch the work or it will contaminate your material and you will have to re-grind the tungsten. aim for a working angle of about 45 degrees to the work surface.


Grab a filler rod
Take a filler rod in your left hand and position horizontally so that it rests at a 15 degree angle to the work, when you insert the filler rod into weld pool, do so by adding it to the edge of the pool keeping it away from the tungsten to avoid tungsten contamination. The filler rod will melt and flow into the weld pool.


TIG torch and filler rod on aluminium


Foot Pedal Control
Controlling the weld current is best done by using a remote foot pedal (pictured on the left). Check to see if your machine can run one of these. This kind of control will help you keep the weld pool steady and help make sure that the pool doesn�t grow, shrink, spread or narrow during the weld. It�s a good idea to practice controlling the welding amperage with a foot pedal on some scrap before you start welding for real. The picture on the right shows a good, controlled weld.


TIG welding foot pedal in operation


A piece of TIG welded aluminium


 


6. LETS DO SOME TIG WELDING!


Establishing the arc with torch switch operation
Set the amperage desired on the main amperage control on machine and press the torch switch and the arc will be started.


Establishing the arc with foot pedal operation
Getting the arc started requires at least a half press of the foot pedal especially if welding at very low amperages. NOTE: A foot pedal in operation will only allow the maximum amperage that you have set on the machine to travel to the torch head. If you experience difficulty starting the arc this is very commonly down to an insufficient amperage setting on the welder and not related to the operation of the foot pedal.


Tacking
Tack welding two pieces together will hold your work in place and prevent the work from moving as you progress along the weld. Metals like aluminium spread heat very quickly so work that is not tacked may have a tendency to warp or distort by the time you reach the end of a section of the weld. Tacking to stop distortion is very important.


Creating a weld pool
The arc will rapidly build heat into the metal and form a �pool� of fluid metal. At this point the filler rod needs to be presented to the edge of the pool. The filler rod will become fluid and form into the weld pool. If you heat the metal in one place for too long the metal will warp and deform. (If practicing, try backing off the pressure on the foot pedal and lowering the amperage to the weld pool to see what happens). Do not put the filler rod to close to the tungsten electrode as it will contaminate the tungsten and you will have to grind it down and restart, a contaminated tungsten will produce a dirty weld and can be very hard to start the arc too.


Creating a bead
Once a pool is established and the filler rod presented you must move along with the torch pushing the pool along the joint and repeating the process of adding in the filler rod as you go. This is called leading the electrode


If the metal starts to burn or melt away then too much current is being fed to the pool and you should lift off the foot pedal


If the metal gets a flaky but not liquid look to it, put in more power by increasing the pressure on the foot pedal


 


7. TYPES OF WELD


The real secret of producing quality TIG welds is mostly in getting the weld pool to form, at the same time, on both pieces of metal. The easiest type of weld is the fillet, two metals joined at right angles. See below:


 


Aluminium TIG weldingTo make a sound weld you must learn to combine all the mechanical techniques into one fluid motion. A good weld should look like a stack of fish scales lying on top of each other. Practice so that welding on all joints in all positions becomes second nature.


Visually and structurally test your welds on pieces of scrap before starting a real piece of work.


 


TIG welding alloy plate


 


TIG welding aluminum progresses at a faster travel rate than steel. Due to aluminum’s high thermal conductivity and low melting point, the travel speed will increase as the welding progresses. If the travel speed is not increased, there is a chance of excessive melt-through on thin aluminum parts


Advanced features found on Tokentools TIG Welders and their benefits


Slope Up (only used with torch trigger operation)


This enables you to set a time that when you start welding the machine will start at minimum amps and slope up to the main amperage you have set on control panel in the time you have set on slope up control.


Slope Down (only used with torch trigger operation)


This enables you to set a time that that when you stop welding the machine will slope down to minimum amps you have set on control panel in the time you have set on slope down control. This is also known as crater fill and allows you to have a better finish off weld and no crater


Gas post flow adjustment


This allows you to set the time the gas will keep flowing once the weld is finished, this cools the torch on air cooled torch systems and stops the tungsten from getting contaminated. If the tungsten turns blue on gets pitted after welding, turn the post flow up. The rule of thumb is to set the gas post flow time to 4 x size of tungsten being used, I.E 2.4mm tungsten set post flow to 9-10 seconds. The amperage you are welding at will also affect this, higher amperages need longer post flow time


AC Balance control (SP%)


This controls the cleaning / penetration of the arc. On the above tig welder 50% is balanced and will perform best for most welding requirements.


If the work material is very dirty, you can turn the balance control down towards 30% and the machine will spend more time cleaning (lifting the oxidization of the work) and less time penetrating the work.


If you are welding at amperages close to the tungsten limit and are experiencing the end of tungsten wobbling too much and falling of, turning the balance to more cleaning can stop this happening and also can lengthen electrode life


Turning the balance control down towards 20% makes the machine spend more time penetrating the work and less time cleaning (lifting the oxidization of the work), this can speed up the process of welding and give better penetration at the cost of the finished look of the weld. Conversely when turning up penetration it will cause more heat on the tungsten and hence quicker wear of tungsten and if set to high it can cause the end of tungsten to wobble and fall off into work. It is quite normal never to turn the balance control past 50%.


AC Squarewave frequency control


This is only found on the very advanced TIG welders and has many benefits

On most TIG welders this is fixed at 50Hz. On the Alupulse Tig welder we used above you control the AC frequency from 10 to 300Hz.


When turning up the AC frequency you have more weld cycles per second so this gives you first of all:-

A faster travel speed helping you to keep ahead of the heat transfer.


The width of the arc from tungsten gets smaller the higher the frequency is set so you get pinpoint accuracy and the weld width is much easier to control.


When you turn up the AC frequency the pitch of the weld will increase this is completely normal.

Beginners will find welding with a tig welder that has AC frequency control is a lot easier than using one without this feature.


Do not confuse AC frequency control with pulse frequency which I will cover next, this is for pulse welding.


Pulse Welding (used only on torch trigger operation)


Pulse welding is not as complicated and some people think, instead of welding at one amperage for the entire weld you can set two amperage for the machine to use I.E Base / Main amperage 40amps, Pulse amperage 100amps


What will happen is the welder will switch between the two amperages and this allows you to limit the amount of heat going into work, especially good for welding stainless steel, it can give a very small width of weld or limit heat deformation.


You can also set the following:

Pulse width. This is how long the pulse will last and on the Alupulse we used above can be set between 0.1 to 0.9 seconds

Pulse frequency adjustment – This sets how often pulse will occur and on the Alupulse can be adjusted between 0.5 to 25hz

So turning up the pulse width will make the pulse last longer than the base/main current set and turning up the frequency will mean the pulse amperage will happen more often.

Setting up pulse welding is down to the individual user and its best to get some scrap and play about with the settings, pulse welding when mastered can really help with the appearance of finished weld and on this machine be used on both DC and AC settings.


Remote foot pedal


This allows you to control the amperage when actually welding which can be very beneficial especially when welding aluminium. You simply unplug the torch switch plug from machine and plug in the foot pedal.


You set the main control amperage on machine to the maximum you wish the foot pedal to go to on a maximum depression. So if you set the main amperage control to 100amps the foot pedal when fully depressed with give 100amps.


Once a weld pool is formed and you are moving along the weld as the heat has transferred along the work you may require less amperage as you move along otherwise the weld pool width / penetration will get too big, reducing the welding current will stop this happening. Over a 300mm long weld, you may need 100amps at the beginning and only 80 amps at the end of weld.


Most experienced tig welders prefer to use a foot pedal, unless the welding in not being done at a workbench i.e. under the bonnet of a race car.


 


 

Friday, 16 August 2013

Tokentools Welders Ebay VERO Page Updated

Tokentools Welders Ebay VERO Page Updated

Tokentools have recently updated the ebay vero page kept at this location, Tokentools Welders Vero Page. The VERO page exists to explain to the general public our policies in regards to trademark and image use. Damian Smith, head of IT said, “Selling on ebay is not without it’s rules and we must maintain our intellectual property rights. This is best achieved by publishing our policies and educating the would be punter”.


 


Ebay welder sales

Ebay welder sales



Don’t get caught on the wrong side of someone else’s intellectual property rights. The last thing you want is the ebay fuzz on your ass.

Wednesday, 14 August 2013

Sydney Welders

Sydney Welders

Your search for Sydney Welders has led you to our online store where you will find many types of welding machines and welding accessories all very close to Sydney. Whether you are after tig welders or mig welders we have them in stock. Our arc welding machines range in amperage from 125 Amps right up to 1000 Amps.


Sydney Welders

Sydney Welders



Perhaps you require a digital tig welder, we have these also. Our digital tig welders feature full parametric control and are priced at less than any other retail outlet. Further we provide a 5 year parts and labour warranty on all welding machines.


Digital Tig Welder - ACDC Digital Tig

Digital Tig Welder – ACDC Digital Tig



Remember that orders over $200 are delivered at no cost right to your door and all prices include GST already. Give our staff a call on 1300 881 991 if you need any advice or help.

Thursday, 8 August 2013

remote-control-tig-welding-torch

remote-control-tig-welding-torch

Water Cooled Remote control tig welding torches are available in the most common formats from Tokentools Welding Equipment Supplies. With a super easy tig torch configuration at the point of purchase it has never been easier to get a remote amptrol tig welding torch for your welder.


remote control amptrol tig welding torch

remote control tig torch



Easily select a rigid tig torch head or else a flex head, pick your length, select the gas connector and electrical connector and then finalise the torch build by choosing a dinse plug.

Saturday, 22 June 2013

Plasma Cutter Guide - How Plasma Cutters Work

Introduction


What is a plasma cutter? How do plasma cutters work? Do you need a cutting tool for occasional repair and maintenance work? Did you recently embark on a new upscale project that requires higher cutting volumes? Are you looking for an alternative to your current mechanical saw? These scenarios provide great reasons to investigate plasma cutting. With the cost of machines on the decline, smaller-sized, portable machines flooding the market and technology offering increased benefits and easier usage — it may be time to take a serious look at plasma for your cutting applications. The benefits of plasma cutting include ease of use, higher quality cuts and faster travel speeds.


How to use a plasma cutter

Plasma cutting



What is Plasma Cutting Technology?


In simplest terms, plasma cutting is a process that uses a high velocity jet of ionized gas that is delivered from a constricting orifice. The high velocity ionized gas, that is, the plasma, conducts electricity from the torch of the plasma cutter to the work piece. The plasma heats the workpiece, melting the material. The high velocity stream of ionized gas mechanically blows the molten metal away, severing the material.


How Does Plasma Cutting Compare to Oxyfuel cutting?


Plasma cutting can be performed on any type of conductive metal – mild steel, aluminum and stainless are some examples. With mild steel, operators will experience faster, thicker cuts than with alloys.


Oxyfuel cuts by burning, or oxidizing, the metal it is severing. It is therefore limited to steel and other ferrous metals which support the oxidizing process. Metals like aluminum and stainless steel form an oxide that inhibits further oxidization, making conventional oxyfuel cutting impossible. Plasma cutting, however, does not rely on oxidation to work, and thus it can cut aluminum, stainless and any other conductive material.


While different gasses can be used for plasma cutting, most people today use compressed air for the plasma gas. In most shops, compressed air is readily available, and thus plasma does not require fuel gas and compressed oxygen for operation.


Plasma cutting is typically easier for the novice to master, and on thinner materials, plasma cutting is much faster than oxyfuel cutting. However, for heavy sections of steel (1 inch and greater), oxyfuel is still preferred since oxyfuel is typically faster and, for heavier plate applications, very high capacity power supplies are required for plasma cutting applications.


What Can I Use a Plasma Cutter for?


Plasma cutting is ideal for cutting steel, and non-ferrous material less than 1 inch thick. Oxyfuel cutting requires that the operator carefully control the cutting speed so as to maintain the oxidizing process. Plasma is more forgiving in this regard. Plasma cutting really shines in some niche applications, such as cutting expanded metal, something that is nearly impossible with oxyfuel. And, compared to mechanical mean of cutting, plasma cutting is typically much faster, and can easily make non-linear cuts.


What are the limitations to Plasma Cutting? Where is Oxyfuel preferred?


The plasma cutting machines are typically more expensive than oxyacetylene, and also, oxyacetylene does not require access to electrical power or compressed air which may make it a more convenient method for some users. Oxyfuel can cut thicker sections (>1 inch) of steel more quickly than plasma.


What to Look for When Purchasing a Plasma Cutting Machine


Once you have determined plasma cutting is the right process for you, look at the following factors when making a buying decision.


 


Procut Plasma Cutter

Plasma Cutting Machine Procut 55



1. Determine The Thickness of the Metal that You will Most Frequently Cut


One of the first factors you need to determine is the thickness of metal most frequently cut. Most plasma cutting power sources are rated on their cutting ability and amperage. Therefore, if you most often cut ¼” thick material, you should consider a lower amperage plasma cutter. If you most frequently cut metal that is ½” in thickness look for a higher amperage machine. Even though a smaller machine may be able to cut through a given thickness of metal, it may not produce a quality cut. Instead, you may get a sever cut which barely makes it through the plate and leaves behind dross or slag. Every unit has an optimal range of thickness — make sure it matches up with what you need. In general, a ¼” machine has approximately 25 amps of output, a 1/2” machine has a 50-60 amp output while a ¾” – 1″ machine has 80 amps output.


2. Select Your Optimal Cutting Speed


Do you perform most of your cutting in a production environment or in an atmosphere where cutting speed isn’t as critical? When buying a plasma cutter, the manufacturer should provide cutting speeds for all thickness of metal measured in IPM (inches per minute). If the metal you cut most frequently is ¼”, a machine that offers higher amperages will be able to cut through the metal much faster than one rated at a lower amperage, although both will do the job. For production cutting, a good rule of thumb is to choose a machine, which can handle approximately twice your normal cutting thickness. For example, to perform long, fast, quality production cuts on ¼” steel, choose a 1/2” class (60 amp) machine.


If you are performing long, time-consuming cuts or are cutting in an automated set-up, be sure to check into the machine’s duty cycle. Duty cycle is simply the time you can continuously cut before the machine or torch will overheat and require cooling. Duty cycle is rated as a percentage of a ten-minute period. For example, a 60 percent duty cycle at 50 amps means you can cut with 50 amps output power continuously for six minutes out of a 10-minute period. The higher the duty cycle, the longer you can cut without taking a break.


3. Can the Machine Offer an Alternative to High Frequency Starting?


Most plasma cutters have a pilot arc that utilizes high frequency to conduct electricity through the air. However, high frequency can interfere with computers or office equipment that may be in use in the area. Thus, starting methods that eliminate the potential problems associated with high frequency starting circuits may be advantageous.


The lift arc method features a DC+ nozzle with a DC- electrode inside. Initially, the nozzle and the electrode physically touch. When the trigger is pulled, current flows between the electrode and the nozzle. Next, the electrode pulls away from the nozzle and a pilot arc is established. The transfer from pilot to cutting arc occurs when the pilot arc is brought close to the work piece. This transfer is caused by the electric potential from nozzle to work.


4. Compare Consumable Cost Versus Consumable Life


Plasma cutting torches have a variety of wear items that require replacement, commonly called consumables. Look for a manufacturer that offers a machine with the fewest number of consumable parts. A smaller number of consumables mean less to replace and more cost savings. For example, Millers Gate has only three front-end parts in the torch and only two of those are consumables: the electrode and the nozzle.


Look in the manufacturer’s specifications for how long a consumable will last – but be sure when comparing one machine against another that you are comparing the same data. Some manufacturers will rate consumables by number of cuts, while others will use the number of starts as the measurement standard.


5. Test the Machine and Examine Cut Quality


Make test cuts on a number of machines, traveling at the same rate of speed on the same thickness of material to see which machine offers the best quality. As you compare cuts, examine the plate for dross on the bottom side and see if the kerf (the gap left by cut) angle is perpendicular or angular.


Look for a plasma cutter that offers a tight, focused arc.


Another test to perform is to lift the plasma torch up from the plate while cutting. See how far you can move the torch away from the work piece and still maintain an arc. A longer arc means more volts and the ability to cut through thicker plate.


6. Pilot to Cut and Cut to Pilot Transfers


The transfer from pilot arc to cutting arc occurs when the pilot arc is brought close to the work piece. A voltage potential from nozzle to work is mechanism for this transfer. Traditionally, a large resistor in the pilot arc current path created this voltage potential. This voltage potential directly affects the height at which the arc can transfer. After the pilot arc transfers to work a switch (relay or transistor) is used to open the current path.


Look for a machine that provides a quick, positive transfer from pilot to cutting at a large transfer height. These machines will be more forgiving to the operator and will better support gouging. A good way to test transfer characteristics is by cutting expanded metal or gratings. In these instances, the machine will be required to quickly transfer from pilot to cut and back to pilot very quickly. To get around this, they may recommend you cut expanded metal using only the pilot current.


Plasma Circle Cutting Kit

Plasma Circle Cutter



7. Check the Machine’s Working Visibility


As you are working on an application, you want to be able to see what you are cutting, especially when tracing a pattern. Visibility is facilitated by the geometry of the torch – a smaller, less bulky torch will enable you to better see where you are cutting, as will an extended nozzle.


8. Look for the Portability Factor


Many consumers use their plasma cutter for a variety of cutting applications and need to move the machine around a plant, job site or even from site to site. Having a lightweight, portable unit and a means of transportation for that unit – such as a valet style undercarriage or shoulder strap – make all the difference. Additionally, if floor space in a work area is limited, having a machine with a small footprint is valuable.


9. Determine the Ruggedness of the Machine


For today’s hard job site environments, look for a machine that offers durability and has protected controls. For example, fittings and torch connections that are protected will wear better than those that aren’t. Some machines offer a protective cage around the air filter and other integral parts of the machine. These filters are an important feature since they ensure oil is removed from the compressed air. Oil can cause arcing and reducing cutting performance. Protection of these filters is important as they ensure oil and water, which reduces cutting performance, is removed from the compressed air.


10. Find Out if the Machine is Easy to Operate and Feels Comfortable


Look for a plasma cutter that has a big, easy-to-read control panel that is user-friendly. Such a panel allows someone who does not normally use a plasma cutter to be able to pick it up and use it. In addition, a machine with procedural information clearly printed on the unit will help with set-up and troubleshooting.


How does the torch feel in your hand? You want something that has good ergonomics and feels comfortable.


11. Look for Safety Features


Look for a machine that offers a true Nozzle-in-Place safety sensor. With such a feature, the plasma cutter will not start an arc unless the nozzle is in place. Some safety systems can be fooled into thinking the nozzle is in place (i.e. shield cup sensing), even when it is not.


 


How Can I Make the Most of This Cutting Tool?


After you have selected the plasma cutting machine that is right for you, here are some tricks-of-the-trade that will help beginners make the best possible cut.


1. Set-Up Procedures


Before you start, check for the following items:



  • A clean compressed air supply, without water or oil. Consumables that wear quickly, or black burn marks on the plate, may indicate that the air is contaminated




  • Correct air pressure – this can be checked by looking at the gauges on the unit




  • A nozzle and electrode are correctly in place




  • A good connection of the work lead to a clean portion of the work



2. Safety Gear


Some basic safety practices should be observed. You should read your instruction manual thoroughly to understand the machine. Wear long sleeves and gloves while cutting since molten metal is generated during the cutting process. Eye protection such as dark goggles or a welding shield is required to protect your eyes from the cutting arc. Typically a darkness shade of #7 to #9 is acceptable. Finally, follow all safety tips and guidelines that are detailed in your instruction manual.


3. Piercing the Work


Many inexperienced users try to pierce the metal by coming straight down, perpendicular (90 degrees) to the work. This results in molten metal being blown back into the torch. A better method is to approach the metal at an angle (60 degrees from horizontal, 30 degrees from vertical) and then rotate the torch to the vertical position. This way, the molten metal is blown away from the torch.


4. Don’t Touch the Nozzle to the Work Piece


Do not touch the nozzle to the work when using current levels of 45 amps or more. Doing so will drastically reduce the nozzle life as the cutting will double arc through the nozzle. Double arcing can also occur if the torch is guided by dragging it against a metal template. The result is the same as dragging the nozzle on the work — prematurely worn nozzles.


5. Beginners Should Use a Drag Cup to Facilitate the Cut


Many systems offer an insulated drag cup, which snaps over the nozzle. This allows the torch to rest on the work piece and dragged along to facilitate a consistent cut.


6. Travel at the Right Speed


When moving at the right cutting speed, the molten metal spray will blow out the bottom of the plate at a 15 to 20 degree angle. If you are moving too slowly, you will create slow speed dross, which is an accumulation of molten metal on the bottom edge of the cut. When moving too fast, high-speed dross on the top surface is created since you are not allowing time for the arc to completely go through the metal. Traveling too fast or too slow will create a low-quality cut. Typically, low speed dross can be distinguished from high-speed dross by ease of removal. For example, low speed dross can be removed by hand whereas high-speed dross typically requires grinding.


what is a plasma cutter

what is a plasma cutting machine



When setting the current, put it on the maximum output of the machine, then turn it down as needed. More power is usually better, except when doing precision cutting or when you need to keep a small kerf.


8. Minimize Pilot Arc Time


Because of the wear it creates on the consumables, try to minimize the amount of time spent in pilot arc mode. To do this, position the plasma torch by the edge of the work before starting the arc so you can get right to cutting.


9. Maintain A Constant Work Distance


Optimally, you should maintain a 3/16″ to 1/8″ distance from the nozzle to the work. Moving the torch in an up and down fashion will only hinder your efforts.


10. Travel in the Direction that will Give You the Best Finished Work


If you are making a circular cut and plan to keep the round piece as your finished work, move in a clockwise direction. If you plan to keep the piece from which the circle was cut, move in a counterclockwise direction.


As you push the torch away from you, the better cut will appear on the metal that is on the right hand side, since it will tend to have a better, squarer edge.


11. End with a Push Angle on Thick Material


One trick to use on thicker material is to rotate the torch slightly, increasing the torch orientation to a push, rather than drag angle as you cut through the last section of material. This increase in the push angle at the finish will cut through the bottom first and get rid of the bottom corner that is usually left at the end of thick plate. Never finish a cut by using the torch to hammer away the last corner of the work.


After finding the right machine for your application and learning some of the tricks of the trade, you should be ready to cut. Remember that plasma cutting offers a number of benefits and should provide you with faster, higher quality cuts.



HOW A PLASMA CUTTER WORKS

 

 






Plasma torch consumables

Plasma cutters work by sending an electric arc through a gas that is passing through a constricted opening. The gas can be shop air, nitrogen, argon, oxygen. etc.

This elevates the temperature of the gas to the point that it enters a 4th state of matter. We all are familiar with the first three: i.e., solid, liquid, and gas. Scientists call this additional state plasma. As the metal being cut is part of the circuit, the electrical conductivity of the plasma causes the arc to transfer to the work.


The restricted opening (nozzle) the gas passes through causes it to squeeze by at a high speed, like air passing through a venturi in a carburetor. This high speed gas cuts through the molten metal. The gas is also directed around the perimeter of the cutting area to shield the cut.


 



Plasma Cutter Guide - How Plasma Cutters Work

Wednesday, 19 June 2013

Industrial > Welding > Welders

Industrial > Welding > Welders

Visit us for the latest Industrial > Welding > Welders . Getting your welding equipment on line is a snap thanks to the convenience of online shopping. Our welding machines are available in traditional Tig welders, Mig Welders and Arc welding machines but we also have multifunction welding equipment comprising tig stick plasma units or mig tig stick welding systems. by tokentools.com.au


Welding > Welders” class /> Industrial > Welding > Welders


Synergic MIG210S is currently on sale at $995 delivered. Get in while stocks last, call us on 1300 881 991 today.


 

Tuesday, 11 June 2013

Buying a Tig Welder

Buying a Tig Welder

With savvy consumers buying a Tig Welder online has never been easier. Our aim is to be Australia’s best place to buy Tig Welders online by providing a great user experience with the best and most modern new sales platform. A selection of Tig Welding products for different Australian workplace applications.


Tig welders in AustraliaAll of our Welding Machines are divided into several subcategories to make your search easier and navigation friendlier. Please select an appropriate category to perform your browse faster and more accurately. Be sure to check out the digital ACDC tig welders here

Monday, 10 June 2013

Portable Welders Are Great For Site Access

Portable Welders Are Great For Site Access

Before outlaying a wad for Portable Welders consider the intended use first. Welding is process where two or more metalic work pieces are joined together by melting them together with the introduction of heat and upon cooling the metal solidifies and forms the required bond. Modern technology by way of the inverter principle allows portable welders to get the desired outcome in some very tight places.


 


Welding is a very easy process to learn and almost anyone could perform it with ease after receiving proper guidance and training. Welding as a part time job pays quite well and many immigrants while they are studying tend to work in factories or industries part time. Using a cheap portable Welder provides the opportunity for you to learn, master the art without blowing a hole in your budget. After some experience you can either get a bigger machines if you find it interests yo or just walk away having experienced it on a budget.


From an industrial perspective, factories engage in MIG or Tig Welding procedures for welding different kinds of metals and alloys. The procedure adopted largely depends upon the characteristics and properties of the metal that is needed to be welded.


Portable Mig Welders

Portable Mig Welders


Mig Welding-Portable Mig Welders

Also known as Gas Metal Arc Welding is a semi-automatic welding procedure in which continuous wire electrode and a shielding gas is fed through a welding gun. The wire electrode that is fed through is also consumable and thus for performing this kind of welding procedure, you need immense amount of raw materials depending upon what is needed to be welded. A constant voltage and current power supply is used for carrying out the task. And you have four different types of methods that can be used for the transfer of metal to form the bond. They are globular, short circuiting, spray and pulsed spray. Each of these methods has their own distinct properties, advantages and limitations.


Portable Tig Welder

Portable Tig Welder


TIG welding-Portable Tig Welders

Also known as Gas Tungsten Arc Welding is an arc welding process that uses non-consumable tungsten electrode to produce the weld. It also makes use of a shielding gas for protecting the surroundings from contamination along with a filler metal. A constant source of power supply acts as the power supply unit for carrying out the task. This power is conducted across the arc through plasma.


Portable Stick Welder

Portable Stick Welder


Stick Welding-Portable Stick Welders

Also known as Shielded Metal Arc Welding is an arc welding process that uses consumable electrode coated with flux to produce the weld. During the process as the weld is laid, the flux coating disintegrates giving off vapors that serve as a shielding gas.


Portable Welders-Portable Welding Equipment


Portable Welding Machines are also known as carry around welders. They enable via the use of minimising electronics found inside inverter welding machines, access to areas that are considered difficult to get to. These light weight welders are used by many fabricators that operate mobile welding businesses.

Monday, 3 June 2013

Digital ACDC Tig Welder

Digital ACDC Tig Welder

As Welding equipment technologies mature it is inevitable Digital ACDC Tig Welding Machines find their way into the Tokentools Welding Equipment Supplies product line. Over 18 months of development and testing have produced a competitively priced ACDC Tig Welder with features expected by professionals.


Digital ACDC Tig WElder

Digital ACDC Tig Welder


Full arc control is included along with expanded tweaking for those that love to fiddle. Welding control is as follows when read from left to right.


Gas Pre Flow -> Start Crater Amperage -> Up Slope Time -> Welding Current -> AC Balance -> AC Frequency -> Pulse Amps -> Pulse Ratio -> Pulse Frequency -> Base Amps -> Down Slope Time -> Finish Crater Amps -> Gas Post Flow


LEDs are colour coded to functions so for example, when setting the machine to pulse (yellow LED with yellow circle around it, the operator is visually linked to the yellow pulse welding section with yellow LEDs. The same again for AC current settings and MMA welding. IGBT transistors from Infineon feature throughout as is the norm with our other machines. Specs are based on the time proven and rock solid Alupulse platform however digital microprocessor control enables expansion over what is available on the analogue machines.


These machines are now available for general release after successfully completing rigorous real world tests. Prices start at $1399 inc GST for the standard package or $1499 with foot control and gas reg. With free delivery and a 5 year warranty now digital welding equipment is more affordable than ever before. Call our staff on 1300 881 991 to order by phone, online store checkout will be available shortly.


Thursday, 30 May 2013

Welding Rotators In Australia

Welding Rotators In Australia

The welding rotators available from Tokentools in Australia are shipped to your door at no cost to you. The most popular unit is the ROTA300 Welding Rotator and is priced at around half that of most similar sized units.

Monday, 1 April 2013

New Welding Equipment

New Welding Equipment

When seeking new welding equipment it is best to compare prices. You can readily compare new welding equipment prices online and get the very best deals when you browse the online store at tokentools.com.au.

Wednesday, 27 March 2013

Cheap Tig Welders Discount Tig Machines Australia

Cheap Tig Welders Discount Tig Machines Australia

Getting cheap tig welders in Australia is becoming easier thanks to the power of the Australian dollar driving import prices down. Manufacturing tig machines in Australia is a proposition that no longer makes sense, our enormously productive economy no longer accommodates the high cost of ...

Friday, 11 January 2013

Best Welding Equipment For Your Weld Process

Best welding Equipment

How to choose best welding equipment


There are many ways to choose the best welding equipment. First you should consider the types of welding equipment that are available. The basic type is the oxy acetylene set, oxy welding equipment. This type of welding equipment is popular from the 1900's onward where the mixture of oxygen and hydrogen was used in jewelry making.

Today this technique is more advanced. These days a mixture of oxygen and acetylene is used that can produce a flame as hot as 3000 degrees Celcius. This equipment is not only used just for welding but also for bending straightening cutting and brazing as well. Oxyacetylene equipment is generally less expensive than most other welding equipment. It is also portable and very versatile but the bottle rental is a ripp off. As such it can be used for various welding purposes. However this equipment is not preferred for thick sections. It is best for thin metal sheets that can be cut or joined easily with this. There are different tips available with such equipment for different purposes. One can make use of the right tip and complete the work correctly and efficiently. This equipment can be used in almost any type of metals. On our site you will find a large number of oxy acetylene welding equipment. If you are starting out welding as a hobby, you can pick up most of your welding requirements here. You can go through our collection of oxy acetylene equipment and choose the one that best fits your requirements. Arc welding is also known as stick welding. This is the second type of welding equipment that we sell on our site. This welding requires a higher level of mastery of skill in welding. People who use this are highly skilled in many welding practices. This technique is best used on thicker and rougher surfaces.

Most professional welders use this technique. A flux coated stick electrode is used in this process. The flux melts away with the heat and liquefies to form a bond between the two metallic pieces. There are different types of metals that can be welded using this technique. This includes cast iron and stainless steel. There are certain preparations that you need to ensure before the welding process to ensure a smoother weld and a faster welding speed.

You need thoroughly clean the area of welding and remove all foreign particles paint rust etc so that it does not react with the welding process. The weld will be complete with the slag that is formed from the flux that joins the two metal pieces together. You can purchase the best arc welding equipment on our website. We have been supplying arc welding equipment to professional welders for a number of years all over the world and have received positive feedback about our products. When you purchase from us you can be sure that all your welding needs are well taken care of. We are sure that you will be quite impressed with the quality of the welding products that will take care of your welding needs.http://www.tokentools-welders.com.au