The World’s Largest Web Site on MIG, Flux Cored, TIG & TIP TIG Weld Issues & Solutions.

It’s a reflection of the general lack of  global, front office weld management MIG, flux cored  and GTAW weld process ownership, that in the common “why change the way we have always done it” weld shops, that fifty plus years after the introduction of MIG and flux cored, the majority of global weld personnel still “play around”  with their MIG and flux cored weld controls. And ten years after I introduced TIP TIG to N. America and Australia,  few of the weld shops that produce code quality welds are aware of the dramatic weld quality and cost benefits of the  easy to use TIP TIG weld process.

TIP TIG is a process that will always provide superior weld quality than any available arc weld process. It’s a weld process that reduces welder skills and enables the lowest weld costs. It’s a process that eliminates weld cleaning and weld fume concerns, and the only arc weld process that provides the capability to eliminate weld rework on any metals and any applications. This web site is about identifying and addressing the general lack of weld process controls and best weld practice expertise  that prevails in all global industries that utilize the common arc weld processes such as Pulsed MIG,  GTAW and  Flux Cored.  

2020. For code quality welds, the evolution of the GTAW, Pulsed  MIG and Flux Cored weld processes into the decade old  TIP TIG  process, should be a no brainer for all those that daily make code quality weld decisions .

A FEW TIP TIG WELD BENEFITS FOR CODE WELDS .

• TIP TIG enables  200 to 400% greater weld deposition than TIG.
• TIP TIG on all position welds is easier to use than TIG, MIG and FCAW while  always producing superior weld quality.
• TIP always enables superior  mechanical properties obtained than any other arc weld process.
• TIP TIG will enables the lowest weld fumes.
• TIP TIG no weld spatter and no weld cleaning required.
• TIP TIG always lowest weld distortion and stresses.
• TIP TIG no weld fusion, no porosity and no weld rework. 
• Use TIP TIG on big or small applications, one process capable of welding all metals from  the thinnest or thickest parts.
• TIP TIG one process for root and all other welds.
• TIP TIG semi-automated or easily automated.
• TIP TIG, one gas, one weld wire, no more than three simple weld settings and one weld procedure.

   

An indication of the weld process slow evolution that’s even  found in high tech N.American companies, is that it took approx. 10 years after I introduced TIP TIG to  SpaceX engineers,  for their managers and  engineers to finally figure out that this is the only manual or automated arc weld process that should be used when welding steel alloys on it’s  Starship, a spaceship that will one day journey to  Mars.

Note: There is a TIP TIG section at this site that provides extensive TIP TIG data. My tiptigwelding.com web site comes out around the middle of February 2020. This site will be the world’s most comprehensive TIP TIG web site and reveals why from a weld quality and cost perspective, TIP TIG is a superior  weld process to GTAW (TIG), Pulsed MIG, Gas Shielded flux cored, and also the Hot Wire TIG process.

A weld reality in 2020 for those industries in which traditional MIG, Pulsed MIG, GTAW (TIG) and gas shielded flux cored welds are important, the daily weld quality and weld production produced will have changed  little in six decades. In most global weld shop front offices, there will be little evidence of  the Weld Process Ownership capability that’s necessary for consistent process optimization. And on the weld shop floors,  you often will find little evidence of “arc weld process controls and best weld practice expertise” with the experienced weld personnel that may have to  “play around” with their manual or automated MIG and  flux cored weld controls. 

In any company that has a weld department. it’s always difficult to find someone who understands the process control requirements for weld process  ownership, and near impossible to find someone who in lass than three minutes could tell you the cost of a foot  of 1/14  MIG fillet weld, (the world’s most common weld).

From assisting aerospace and defence companies to ship yards, nuclear or automotive plants,  over 40 plus years,  I was asked by more than a 1000 weld shops in 13 countries to solve their manual and robot MIG – GTAW – Flux Cored – Hot Wire TIG, SAW and Plasma  weld  quality and productivity issues. I introduced this weldreality.com site around 1998.  My name is Emily Craig, and this site is an outlet that enables me to reveal my  global weld experiences, and to discuss the common global weld shop issues, and more important for those that have an interest, to provide the required practical cost effective weld resolutions.

For decades, in diverse industries such as shipyards and automotive plants, many in weld management may think it’s the norm annually to annually spend millions on weld rework, weld rejects and on poor weld productivity.  It’s been my reality, that a common manager’s response to their never ending weld issues is to daily take an acid reducing TUM, and weekly call a weld TEAM meeting in which the only thing frequently achieved is the consumption of a box of donuts, wasted man hours and more process weld confusion is generated throughout the facility.  Eventually when the managers or engineers give up on their weld personnel for effective weld process resolutions, the manager may then turn to more costly weld resolutions such as,  employing more welders,  purchase more robots, outsourcing the welded parts,  or  bring in a weld sales rep to talk about their latest costly weld equipment, that in many instances will be is loaded with useless electronic bells and whistles. And if it’s not the purchase of new weld equipment, why not consider the purchase of another useless three part gas mix.

The sad weld reality for many  of  the weld decision makers in the global weld industry that have a difficult time consistently attaining the full manual or robot weld quality and productivity potential from the world’s most utilized arc weld processes MIG and FCAW, is that for decades, producing daily mediocre weld quality, and creating unnecessary weld rework and rejects, or providing poor weld productivity has become the NORM.

WELDER SKILLS HAVE ALWAYS BEEN A SECONDARY REQUIREMENT: An essential requirement for front office weld process ownership is for the companies key weld decision makers to understand the value of something that for decades few managers  or engineers are aware is an essential  requirement,  weld process controls – best weld practice expertise. With the lack of awareness this expertise  will be something that’s  rarely  required in  any weld job description. This is a subject that  I have studied for four decades, and since the introduction of arc weld processes, a qualified weld manager would be aware that it’s not the welder skills that are the most important attribute in the weld department, it’s the level of Weld  Process Controls and  Best Practice expertise that enables an organization to consistently attain  maximum, optimum utilization of  both the weld processes and weld consumables utilized. 

When the weld shop’s front office engineers, managers or supervisors have a weld process resolution they can’t resolve, they will often turn to their local sales rep who likely will have never worked in or run a weld shop. 

The weld industry is the only technical industry that relies on  inexperienced sales or equipment  representatives to provide weld process advice for a shop’s weld issues, and these are issues that typically have been going on for decades, issues with weld equipment that typically has two weld controls. Ironically the sales personnel will typically have never worked in or managed a weld shop. As a training manager at Linde,  Airgas, AGA and Carbonic, I put on simplified weld process control training programs  for thousands of N. American  sales personnel, and I came to a conclusion that  perhaps five in a  hundred had  a comprehensive understanding of  the typical weld equipment and consumables used in the weld shops they serviced.

One area that always  dramatically reveals the lack of  MIG weld process controls and best weld practice expertise that prevails in most Automotive and Truck plants,  will be found in the ever changing poor MIG data weld data that’s  unfortunately has been provided in the robot pendants: 

LACK OF WELD PROCESS CONTROLS – BEST WELD PRACTICE  & WELD COST EXPERTISE IS SIMPLE TO RECTIFY:If managers, engineers and supervisors in automotive and  truck facilities, don’t understand  the weld process control expertise requirements for weld process ownership, it’s not likely their robot technicians or those that make the weld changes will  have this expertise.  If an enlightened  plant or engineering manager had insisted that at least one person in their  plant had the weld process control and best weld practice expertise that’s necessary  to optimize either robot or manual  weld quality or productivity process performance,  that same manager (who I only met once in a car plant) would also be wise enough to ensure that their often underpaid weld process  control expert was  given the responsibility to train all those in both the front office and weld shop that  daily make the weld decisions. Please be aware, that I condensed and simplified  my process control training resources so they could be presented by anyone, and it does not matter what the individuals weld background or experience is to self teach or present one of the following programs. Note: It’s only logical that every weld decision maker’s “Job Description”  should include the words, “Must have Weld Process Controls and Best Weld Practice expertise”.

My MIG – Flux Cored  and TIP TIG Manual and Robot Weld Process Controls & Best Weld Practice, Training or Self Teaching Materials.

THIS WILL SHOCK MANY, A WELD TEAM IN ANY MANUFACTURING FACILITY IS TYPICALLY A SIGN OF “INEXPERIENCED WELD MANAGEMENT”:  Another unique attribute about global weld  shop practices, is when managers, supervisors or engineers lack weld process control and best practice expertise,  they will frequently create a Weld Team, that ironically also lacks the same expertise.  My easy to learn  manual and robot weld process controls and best practice self teaching or training programs typically only require 15 to 20 hours to learn,  and if  this training was provided  to all  the company’s personnel that make daily weld decisions, the weld reality  is that no plant or weld facility  would require  a”weld team” and the reason would be that   all the companies weld decision makers would be trained with the process  control requirements that enable them to walk the one path required for manual or robot weld process optimization, (the requirements for weld process ownership).

A MANUFACTURING TEAM IS MORE LOGICAL. Rather than creating  a robot weld team, a more logical approach in an organization that understands weld processes would be to create a  “manufacturing team”. This would be a team comprised of the key robot weld decision maker, and the production, quality, maintenance and engineering manager. The manufacturing team’s prime responsibility would be to ensure  that the products for the robot cells should be delivered  in a timely manner, and the parts to be welded by the robots would be manufactured in accordance with the  specified design,  conditions and dimension,  (always a rare event in poorly managed auto / truck plants).

2020. In the many weld shops in  global weld industries such as Power, Aerospace, Oil and Defence, that are stuck  in the welding 20th Century,  you will typically find their weld departments encased in a   “this is way they have always done it”  mentality. Heads up, there is a ten year old weld process called TIP TIG that for all weld shops that work with code quality weld applications will now enable them to produce welds without the need for weld rework.

TIP TIG  is a process that my business partner Tom and I bought to North America and created TIP TIG USA. We  also introduced TIP TIG to Australia and China. The suitable weld applications for TIP TIG, and where  this process should be used rather  than using the  GTAW – Pulsed MIG, Flux Cored and Hot Wire TIG processes are discussed briefly on this page and extensive data is provided  in the TIP TIG section and in my tiptigwelding.com web site available Feb. 2020. However I am well aware that on the subject of weld process evolution which presents a major change for weld shops, and especially for those weld shops that lack front office weld process ownership,  there will be a major common hurdle, and that will be the general weld department’s attitude to change.

In a highly competitive industry, an experience weld shop manager, supervisor or engineer would never allow this attitude.

WELDING AND THE MORE AGGRESSIVE RAPID WELD PROCESS EVOLUTION IN CHINA:  I am well aware of the reasons  that “CHANGE”  for many weld shops is difficult to implement, after all, lets face it, this is an industry that’s seen little progressive or cost effective arc welding process changes for steel and alloy steel welds in the last 60 years.  However  the 20th Century has passed, and in the North American welding industry there has never been a more important time for key weld decision makers to want to embrace cost effective, weld process changes, the reason is a simple one. China with 1.4 billion and India with 1.3 billion populations, have  in 2020, with their extensive weld labor cost  advantages also have the same manual and automated  arc weld equipment and consumables capability as any other country.  The weld reality is as you will see in the TIP TIG section and in my new web site  tiptigwelding.com, coming out Feb. 2020, is that in the aerospace, power, oil and defence sectors, that when it comes to manual and automated arc welding,  China (above two welders) is  already a decade head of N. America.

MANAGERS SPEND 200 to 300% MORE COST FOR PULSED MIG WELD EQUIPMENT FOR THEIR MOSTLY STEEL WELDS, WHY? Of course electronics in MIG equipment has enabled interesting weld transfer mode opportunities especially with pulsed MIG aluminum welds.  However most of the electronics that from the 1980s to 2020 that have gone into pulsed MIG equipment that is used mostly for steel and alloy welds, have in reality been  mostly useless BELLS & WHISTLES.  I started welding  tractors in a Massey Ferguson plant in England in the nineteen sixties,  and today in 2020, I could take a 1960 CV MIG power source and with MIG weld process controls and best practice expertise consistently provide optimum quality, spatter free welds on any steel  and alloy steel parts from 14 gage to any thickness. The same can be said with the  North American CV MIG equipment that is available in 2020. Also a reality with MIG Spray transfer is that as it does not spend 50% of its time in a low background current as a Pulsed MIG weld does. With MIG spray on steels and alloys over 5 mm thick,  the weld shop can anticipated superior weld fusion and less porosity than any pulsed MIG weld. So if a weld shop welds aluminum purchase a pulsed MIG power source, however if the weld shop welds mostly steels the weld equipment in 1980 or 2020 should from a weld logic be CV MIG units. Think of the savings for the weld shop from being able to purchase the lower cost, easier to repair and more durable CV equipment,  savings that will come from managers who have the ability for process ownership, from managers that are aware they have to provide their employees with the required weld process controls – best weld practice training they need. 

THREE PART GAS MIXES, METAL CORED WIRES AND BOVINE FECAL MATTER: While some metal cored wires that contain alloys may be beneficial for high strength applications, when welding low carbon steels. I never saw a metal cored weld I could not replicate with a lower cost MIG wire. As for those three part MIG gas mixes, as a key writer of the AWS MIG Shielding Gas Specifications, I would like to inform any weld shop that over the last four decades purchased a three part MIG gas mix for steels and alloy steel welds, that the costly three part MIG gas mixes were never necessary and the reality of adding oxygen in a gas mix created more negative attributes to a weld than benefits. I will admit however that both the metal cored wires and three  part gas mixes were always a good tool for the weld distributors to attain gas business in weld shops that lacked the ability for MIG weld process ownership.

On many steel and alloy weld applications, for decades, the common useless electronics found in pulsed MIG equipment was a good companion for the useless costly three part MIG gas mixes and metal cored  wires that were also used as a crutch by those that lacked weld process control expertise.

GAS SHIELDED FLUX CORED: In 2020, the majority of global weld shops may also be surprised to hear that both GTAW and the gas shielded flux cored process  are  a poor weld process choice for many code quality welds.  For those using all position gas shielded flux cored wires in 2020 on applications that require X-Rays or Ultrasonic testing, why would any weld shop choose  a weld process  such as flux cored in which  irrespective of the welder’s skills, unreliable weld quality, excess  porosity, trapped slag weld fusion concerns, excess spatter  and excess weld fumes will be the norm. 

GTAW: And If the weld shop is still using the seventy year old DC. TIG process  for welding parts that require an extensive amount of welds, what  manager has not been frustrated in dealing with this ultra slow process that requires the highest welder skills, and also provides high heat into the welded parts. Note: For those that are interested in the well documented  issues that occur with the common MIG –  Pulsed MIG – GTAW -Flux Cored processes and their equipment and consumable issues when utilized on  manual and robot welds, please visit my programs sections. While pulsed MIG,  DC TIG and the gas shielded Flux Cored processes have since the 1960’s,  been responsible for most of the  global code quality arc welds that are produced daily, in 2019, few weld shops are aware that for more than a decade there has been  an alternative,  superior, “manual semi-automated and fully automated” weld process called TIP TIG.

TIP TIG is  a process that  may appear at first glance for some weld personnel to be a cross between  the  TIG and MIG process. However this is a process that  when code quality welds are required, TIP TIG will provide superior weld performance than TIG – Pulsed MIG – Gas Shielded  Flux Cored and Hot Wire TIG welds.

TIP TIG is both an easy to use semi-automated and fully automated arc weld process. When code quality welds are required, by consistently enabling the highest weld energy in an inert atmosphere,  (best weld fusion lowest porosity) along with attaining the lowest welded part heat input from DC polarity and increased travel rates. In contrast to GTAW – Pulsed MIG – FCAW and Hot Wire TIG, the TIP TIG process will always attain the best possible weld quality and also part mechanical and corrosion properties.

TIP TIG highest weld energy and weld fluidy, highest weld purity, lowest weld part heat with an easy to use  process for any metals, any size, and any weld position..

WHEN TOM MY BUSINESS PARTNER AND I  STARTED  THE COMPANY “TIP TIG USA”  IN 2009,  IT CREATED DRAMATIC NEW WELD OPPORTUNITIES FOR WELD SHOPS IN N.AMERICA – AUSTRALIA AND CHINA.

2020. I predict that by 2025, the “Plasch Austria” patented TIP TIG process that I and my business partner Tom introduced to North America, China and Australia in 2009,  will be  the  world’s most widely utilized arc weld process that is associated with most code quality welds.

With so many weld, metallurgical, mechanical, corrosion, and  also weld fume safety benefits obtained from  TIP TIG,  benefits that are spelled out on this page and  especially in my comprehensive, “TIP TIG” program which provides TIP TIG data that’s not provided on any other global website.  For any weld shop the weld reality is this, when the highest possible quality on all position, root or fill, fillet or butt, small or large parts, on manual or automated applications are required, the weld shop will find TIP TIG will  be easier to use, (less skills), and always produce superior  weld quality than the traditional   DC/AC  TIG –  Pulsed MIG –  STT  MIG – RMD MIG, Flux Cored  and  also the Hot Wire TIG process.

Note: For those that may not agree with the above TIP TIG statement, why waste a breath arguing the subject, after all it would take less than 60 minute  for  a TIP TIG demo in any weld shop to prove the TIP TIG weld quality and cost results are superior to what your company is presently producing. Of course the local sales rep. that has a degree in liberal arts or history,  and  likely does not sell TIP TIG may disagree,  and instead perhaps they will want you to try their latest electronic MIG power source or another  useless three part MIG gas mix.

This site places much focus on the process expertise that’s too often lacking in global weld shops and also on the GTAW – Pulsed MIG – FCA and TIP TIG weld process comparisons for common, code quality global weld shop applications. Note, the weld  process comparisons will have more meaning when those that are interested in the comparisons, have the weld process controls & best weld practice expertise that’s been necessary to optimize the common arc weld process utilized in their weld shops. 

SO WHAT DO YOU THINK MAKES THE PERFECT ARC WELD PROCESS? If  I was to ask a well seasoned weld individual,  what do you believe the key  weld process attributes would be to make the perfect weld process for most code quality welds.  The following would be my list. 

Ten fundamental weld process requirements to attain the best possible, all position, code quality manual welds on any metals. 

1.  Must be an easy to use, semi-automatic and automatic weld process.
2. Must have the weld capability for both open root and fill passes on any application and metals, and suitable to welds on any thickness.
3. Must provide the highest weld energy, (weld fluidity) capability to attain optimum weld fusion with all metals. (not possible with MIG or FCAW).
4. Must provide moderate all position weld deposition rates that while producing, cost effective welds are also providing an important balance between the amount of weld deposited and the weld energy delivered.
5. Must provide an inert plasma atmosphere that minimizes weld oxidation and porosity.
6. Must provide no spatter or slag.
7. Must provide automatic control of weld start / stop data.
8. Must provide EN polarity that enables with the weld speeds attained, the lowest welded part heat input that enables the smallest weld HAZ,  and the best  mechanicals and corrosion properties.
9. Must be simple to set.
10. Must not require more than three settings for all welds.

Note in 2020 there is  only one weld process capable of delivering the above and it’s the decade old TIP TIG process.
 

PLEASE BE AWARE, THAT EVERY  THING THAT’S  STATED AT THIS SITE CAN BE DEMONSTRATED AND PROVEN IN LESS THAN AN HOUR IN ANY WELD SHOP.

MODERATE WELD DEPOSITION RATES AND THE HIGHEST DC WELD ENERGY ENABLE THE BEST ALL POSITION WELD FUSION.  When the weld shop  has an all position,  easy to use  process such as TIP TIG that produces  moderate weld deposition rates that provide the highest energy and fluidity welds that are protected by an inert gas, for the weld shop this this enables the capability to attain on any scale application the highest possible arc weld quality. When you combine the weld quality asset of TIP TIG with the TIP TIG’s DCEN and weld speed ability to produce the lowest possible weld heat input to the parts welded, this provides for the weld shop, the manual and automated weld capability to eliminate the normally anticipated weld rework on any application. And also to be able to weld any type of weldable metal without worrying about any weld metallurgical concerns.  The TIP TIG welds shown on this page and in the TIP section cannot be duplicated by any regular  optimum TIG, pulsed MIG or flux cored welds.

Note. Yes with traditional DC TIG process the weler can always produce excellent weld quality, but with manual DC TIG,  the welder cannot attain the  TIP TIG weld energy,  the TIP TIG weld uniformity and weld continuity that drives weld speeds, the TIP TIG weld deposition rates and reduced skills  that drive weld costs, and with TIP TIG the weld shop can produce on most parts > 2 mm the lowest welded  part heat that influences metallurgy and application capability.

When I first introduced TIP TIG to N. America and Australia around 2009, I  was well aware that this  unique process would be a huge game changer for weld shops, and would have to be compared with the traditional arc weld processes utilized by the weld shops, especially with code quality welds. When discussing weld process comparisons,  it helps if those doing the process comparisons first have the weld  process controls and best weld practice expertise that was necessary to  consistently attain weld process quality and productivity optimization with the weld shop processes  they daily use. (available with my low cost weld process optimization training programs),  however the bottom line is simply this,  there is no optimum Pulsed MIG – GTAW and Gas Shielded Flux Cored welds that will have the capability to match the weld  quality show on upper left, and with the other TIP TIG welds shown here and in my TIP TIG section.

Some processes as discussed in the process section of this site are simply not capable of consistently producing optimum weld quality. Weld shops will be aware  that with manual welds, that irrespective of the welder skills, arc weld  processes such as Pulsed MIG and gas shielded flux cored are  on many applications simply not capable of  consistently delivering  defect free welds. The inherent weld process issues that influence the weld quality are discussed  extensively in my TIP TIG and in MIG and flux cored weld program sections.

Some of you that attended my process control workshops or purchased my weldreality training programs, will be aware that  I have specialized  on  the requirements for weld process control and best weld practice  for close to the five decades that I have been in this industry. Manual,  automated or robot welds, I know what each arc weld process quality – productivity and capability is with any metals on any applications. I am well aware also of the weld issues that will be generated from the weld process and consumables used, and also the issues that are generated from  the common poor weld practices used by the welders. So please keep this in mind in the weld advice that I offer,  I  was born in Manchester UK, and in general mancunians are people that have no time for BS. I don’t sell welding products, and from my lips  you will never hear weld equipment or  process bias. However for decades I do offer what in general is missing in the majority of weld shops of the global weld industry, that is the required Weld Process Controls and Best Weld Practice  self teaching / training  programs that will help any company  personnel attain the best possible weld results with the MIG – FCAW – Advanced TIG and also TIP TIG process utilized.  

If a person wanted to find evidence of the too often poor, stagnant state of the global weld industry, they  could start out in two diverse industries such as ship building and automotive. In most of the  global ship build facilities, thanks to lack of weld management and weld engineering ownership and lack of weld process controls expertise,  there is  usually always  extensive, unnecessary manual costly weldrework. And in the auto. truck plants, the bins that line the robot aisles will usually be full of weld rejects and rework from the poor robot MIG weld quality,  and few of the robots in the plants will be attaining optimum their eobot weld productivity potential.

For decades.  as a result of  unnecessary flux core and MIG weld rework, millions of dollars have been  lost per-vessel built, and the reason is a simple one, the common Navy and shipyard front office,  lack of  Weld Process Controls and  Best Weld Practice Expertise.

IN 2019  AND AS  THEY HAVE DONE FOR DECADES,  GLOBAL  NAVY YARDS THAT  ARE BUILDING MULTI-MILLION DOLLAR  VESSELS,  WILL BE DRAMATICALLY  GOING  OVER  THEIR WELD REPAIR BUDGETS BY  MILLIONS OF DOLLARS.  AND YET AT THESE FACILITIES, THE  REQUIRED WELD SPECIFICATIONS ARE BEING UTILIZED, THE WELD PROCESSES WERE APPROVED,  THE WELD PROCEDURES QUALIFIED , THE WELDERS  TRAINED AND QUALIFIED, AND  A COSTLY  QA DEPARTMENT STRIVES TO  ENSURE  THAT STRINGENT WELD INSPECTION IS PART OF THE PROCESS.  SO CAN YOU GUESS WHAT THE MISSING LINK IS?

When any facility that applies an annual budget for it’s weld repairs, you would assume that the facility manufacturing management created that budget from its history of typical annual weld repair costs, and you would also think that the key weld decision makers would then strive to reduce those weld repair costs. And yet in shipyards, you will find the annual weld repair costs rarely go down, and  in most cases again thanks to lack of management and engineering process ownership capability the costs typically will again,like ground hog repeat and often dramatically exceed the weld repair budget sometimes by many millions of  taxpayers dollars.

A logical manager or engineer would ask, why with the  simple to set two control MIG and flux cored weld processes that are utilized  for most welds, two processes that have hardly changed in decades,  do the responsible managers and engineers  continue to fail in their task of  owning these weld processes and better managing their  daily weld quality and productivity?  Also why after decades of experience  with these two weld processes is there little evidence of weld process control and best weld practice evolution throughout the global weld industry?

Lets face it. anyone who had spent 30 minutes at this web site would not need to be a rocket scientist to figure out why the never ending shipyard or automotive plant weld issues have been going on for decades, or why the aerospace, power, oil and defence industries are stuck in the welding  20th Century. The following are five common root causes of  why many of the global weld issues occur;

[1] MANAGEMENT DOES NOT KNOW THAT MANUAL – ROBOT WELD PROCESS CONTROLS & BEST WELD PRACTICE IS AN  EXPERTISE THAT EXISTS.
[2] FEW FRONT OFFICE PERSONNEL CAN WORK OUT THE COST OF A COMMON 1/4 MIG OR FILLET WELD. 
[3] ENGINEERS ARE NOT TAUGHT WELD PROCESS CONTROLS AND BEST WELD PRACTICES. 
[4] MANAGER AND SUPERVISORS HAVE NOT FIGURED OUT WHY THEIR WELD PERSONNEL OT TECHNICIANS HAVE TO PLAY WITH WELD CONTROLS.
[5] MANAGERS & ENGINEERS & SUPERVISORS ARE NOT AWARE OF THEIR RESPONSIBILITY FOR WELD PROCESS OWNERSHIP. 

I do apologize for the size of this web site, however the weld processes discussed are diverse, the weld process issues extensive, and the repercussions of costly arc weld quality and productivity issues that daily effect the majority of the global weld industry has been going on for the five decades that I have been in this industry, and the weld reality is, the process controls subject  is a subject that  should be of interest to anyone that calls themself a weld professional, to someone who has an interest in weld PROCESS OWNERSHIP. 

Since the 1980’s I have been documenting the  common global arc weld problems that I was asked  to resolve  in more than a 1000 weld shops in 13 countries. I have written 35 articles and had four books published on  MIG and Flux Cored weld issues and process control resolutions. My focus was always on simplifying and condensing the subject of weld process controls and best weld practices and passing this on to all weld decision makers.  I have spent decades  developing the low cost process control resources available at this site that enable managers and engineers to take ownership of their weld processes, however the sad weld reality is getting them to purchase these resources, has in most instances  been like getting a mule to drink water from a trough. 

2109:  On the subject of lack of weld evolution, their will always be a place for the traditional TIG process, (left), however  as you will read below, this 75 year old process should no longer the optimum  arc weld process of choice with  most code quality welds.

In  this home page, I will start out with some  general information on the three key common arc weld processes that will be used in the next decades, Pulsed MIG, Gas Shielded Flux Cored and  the most important will be the TIP TIG process. The reader will find with these  three weld processes, the most comprehensive manual and robot weld  process control data in this sites programs sections and  also in my weld books and training materials. And while the site is long winded due to its age and  the never ending global weld shop issues, I hope some  readers will find the information that could enable any organization to take the one path required for weld  process optimization, a path that ensures with each of the three weld processes, the best possible, consistent, uniform quality welds always of course produced at the lowest weld costs.

As  MIG is the most widely utilized arc weld process,  I will start out with some MIG weld reality information.

Some may think it ironic that most of the MIG weld issues that  I was writing about in the 1980’s, are the same issues as the MIG weld  issues that are being  generated in 2020. Please note that extensive data  on the Pulsed MIG process and the extensive pulsed MIG equipment issues are  found in  the MIG programs  section.

FEW WELD SHOPS WERE AWARE OF THE DECADES OF POOR PULSED MIG EQUIPMENT WELD PERFORMANCE,  AND THE REASON IS SIMPLE THIS WAS SIMPLY ANOTHER  INDICATION OF THE LACK OF WELD PROCESS CONTROLS EXPERTISE THAT PREVAILED  IN THOSE WELD SHOPS. 

[] WHEN LACK OF PROCESS OWNERSHIP PREVAILS, THE WELD SHOP TURNS TO THE WELD SALESMAN FOR EQUIP. ADVICE. For at least three plus decades,  while lack of front office manual or robot weld process ownership has been the norm, MIG equipment manufactures like Miller, Lincoln, Panasonic,  Hobart, Motoman and ESAB  have been producing  faulty, unstable or simply poor performing Pulsed MIG equipment,. The MIG equipment manufacturers rarely informed their customers of the equipment issues  and global weld shops daily payed the price without being aware of the real reasons.

[]  IF NOT WELDING ALUMINUM, WHY PURCHASE A COSTLY PULSED MIG PROCESS? There should of course be consideration why weld management  when purchasing costly MIG equipment want to waste money on the purchased of  the less durable, more difficult and costly to repair Pulsed MIG equipment.  There are many reasons why weld shops and robot cells should not be using Pulsed MIG on steel welds, and there are many reasons Pulsed MIG should be used for aluminum welds. 

If the reader was to  ask their experienced weld shop floor personnel to explain why they need pulsed MIG equipment for steel welds, I can assure you that in their answers there will likely be many indications of MIG  process confusion. And if the front office weld decision makers were asked why they should purchase pulsed MIG for  their steel welds, they will likely tell you all the reasons that their local sales rep. (who never ran a weld shop) told them.

I have written approx. a hundred  thousand words on why Pulsed MIG is not a requirement in a weld shop that welds mostly steel and alloy steel welds, and with the introduction of TIP TIG, when rational weld process selection decisions are made, the purchase of Pulsed MIG equipment should decline especially when any code quality steel welds are required. If like me you don’t have a life,  there are decades of manual and robot pulsed MIG issues documented in  my pulsed MIG process and MIG equipment sections.

[] WELDING ROBOTS AND THE EVIDENCE OF THE LACK OF WELD SHOP MANAGEMENT:  Pulsed MIG or regular CV MIG welds, you would think it logical that those responsible for robot MIG weld decisions would be aware of the process differences and  that the weld equipment they purchased is often a prime root causes of  their robot MIG weld issues. You would also think that the front office weld decision makers would be aware that their employees often lack the  robot MIG weld process controls and best weld practice expertise necessary to enable consistent, optimum robot MIG weld quality and productivity, with of course the lowest robot down time.

[] DECADES OF MIG WELD GAS SALES AND WELD SHOP BS:  In North America, there are forty plus MIG gas mixes available, and few weld shops that are aware that  no more than four MIG gas mixes have ever been required for all MIG welds. The majority of the MIG Gas Mix mixes sold are simply a result from the vivid imagination of a of gas marketing  or sales executive. Note: As the industrial gas marketing manager for Airgas, AGA, and Liquid Carbonic, I developed or introduced in N. America 4 of the top selling MIG gas mixes. If interested visit my MIG gas section. 

[]  A WELD PROFESSIONAL WOULD SIMPLIFY, CONDENSE AND ENSURE  EMPLOYEES ARE TRAINED  IN THE PROCESS CONTROLS – BEST PRACTISES REQUIRED. No matter what weld wire is placed on a MIG power source and what the weld metal and application is, as shown in my Training / Self teaching MIG and Gas Shielded Flux Cored weld process control – best weld practice programs, the reader will find that  there are “three” optimum weld settings. There are also MIG and  Flux Cored best weld practices that are necessary to minimize  weld defects and optimize weld productivity. The weld reality is few of your  weld personnel will be aware of the settings and practices, and as is common in many weld shops when setting a MIG or Flux Cored weld, the weld personnel will  frequently   “play around” with two weld controls that have changed little in decades.

In a rare global weld event, I had the opportunity to apply my arc weld process controls – best weld practice for a short time in a shipyard.

When hired as the shipyard weld manager, I walked into a yard in which the previous German weld and engineering managers knew a lot about stick welding and nothing about  Flux Cored and MIG Weld Process Controls and Best Weld Practices. In this shipyard. within three months of my process control training, the weld quality and productivity results were staggering. The weld quality and cost information attained is below, and full info available in my flux cored section. 

WITH THE TREMENDOUS WELD REPAIR COST OVERRUNS  ON NAVY VESSELS, THE NAVY MANAGEMENT IS BEGINNING TO WONDER WHY THE LACK OF WELDING EXPERTISE HAS BECOME THE NORM THAT IMPACTS NOT ONLY THE WELD QUALITY BUT THE PRODUCTIVITY AND PRODUCTION DEADLINES. 

As you will read below, even the Navy executives who will have never run a weld shop are beginning to wonder why in the  shipyards that build their vessels, the over budget weld repairs are  always measured in the millions,  and over the decades there has been little evidence of  management coming to grips with the costly weld issues, and  rarely evidence of the understanding or importance of the use of  weld process controls or best weld practices. 

THE ASSISTANT SECRETARY OF THE NAVY SPEAKS BUT WHO THE HELL LISTENS? For those not interested in my opinions and my focus on the general  lack of weld weld best practices and weld process controls expertise, they may however want to be aware of the the words of  a Mr. Guerts, the Assistant Secretary of the US Navy.  Mr. Guerts is responsible for spending approx.  205 billion dollars next year, and as you will read below, the front office engineering and management lack of  weld process ownership in the  Navy shipyard departments that fabricate & weld have him more than worried about meeting the his annual ship build delivery and budget requirements.  See Navy below.

2020…WHEN IT COMES TO WELDING SUBMARINES, THE GLOBAL NAVY YARDS  IN GENERAL ARE  STUCK IN THE 20th CENTURY. Another  2019 example of lack of front office management and engineering weld process  ownership.  There has never been a greater global demand for  submarines, however most of the welds produced when  building global Submarines,  will be mage using outdated, 20th Century processes such as DC TIG – MIG – FCAW and  SMAW, outdated weld specifications and outdated weld procedures.  It would take me an  hour to convince any Naval yard that they need to get a bloody grip and wake up. 

For those front office weld decision makers that ignore or are not aware of  arc weld process  evolution that has taken place over the last ten years,  and  for those also not aware of the benefits of weld process controls and best weld practices that should be implemented in their ship building yards, you may when you  finish this page,  want to visit my process training – self teaching programs.  Watch out for the world’s most comprehensive process data on my ne tiptigwelding website the end of Jan 2020. 

2019.  The majority of the 21st Century global defense projects are at this time being built using 20th Century arc weld processes, with outdated weld specifications and  weld procedures. I am not aware at this time in 2019 of any North American defense contractor that has implemented the latest weld technology and uses weld process controls and best weld practices.

My MIG – Flux Cored  and TIP TIG Weld Process Controls & Best Weld Practice, Training or Self Teaching Materials.

WHILE MANY WELD SHOPS FOCUS ON “WELDER SKILLS”, IT’S BENEFICIAL IF WELD DECISION MAKERS UNDERSTAND THAT “WELDERS SKILLS” ARE NOT WELD BEST PRACTICES AND THE WELDER SKILLS ARE AN INDICATION OF THE WELDERS WELD  PROCESS CONTROL EXPERTISE:

A SINGLE WELD FAILURE CAN COST LIVES AND BILLIONS? All it takes is one flux Cored, lack of weld fusion defect in the right application location. and with the right circumstances, the result can be a catastrophic human and cost disaster. However the irony is that in most global ship and oil platform yards, is that they typically provide inadequate welder training programs that focus on welder skills with minimal  focus on the requirements for weld process optimization. I suppose that this is understandable as few of the ship yard managers and engineers are aware of the importance of the weld process controls and best weld practices required with the common semi-automated weld processes.

The Alexander Kielland platform was used to provide offshore  accommodations. All it took was a  poor 1/4 (6mm) fillet weld to influence  a structural component fatigue  failure and the platform collapsed into the ocean with  123 lives lost.