The Essential Guide to Wire Processing Automation provides a breakdown of the basic components of an automated wire processing machine for cut, strip and wire end process single conductor stranded wire. In edition this paper provides some of the typical options for pre and post processing as well as multi-tasking processes for the ends of the wire.
The 2017 edition includes a number of revisions to the First Edition from 2015. In addition, the resources section has new supporting articles on wire processing and crimping technology.
Subscribers of the WireProcess Connection, the newsletter of the WireProcess Global Community have access to this white paper which we deliver free of charge.
“Quality is never an accident. It is always the result of intelligent effort” – John Ruskin
I am sure this quote from a 19th Century English Art Critic was applicable in the era it was written. But it is no less applicable today.
“Quality is never an accident”. Nor does Quality simply happen. It takes effort to create, build and maintain an effective quality system. The stakes are higher today than any other time in history. The cost of a reject or recall can cripple a company. No company of any size is immune from the effects of a reject claim. Can you afford the risk?
“It is always the result of intelligent effort”. Yes, you must invest time and resources. People in the company from the top to the bottom need to be actively participating in efforts to create a quality system. Ask yourself these few questions:
What does our existing quality system look like?
Is it contributing to reduced internal rework costs?
Is it effective to reduce the risk of defective goods leaving our facility?
Do we have sufficient internal resources to improve our Quality System?
Do we need to consider outside sources to ensure we are keeping up with emerging trends in Quality Management?
Putting it into perspective, a quality system needs to fit the company’s size and structure. What is critical to large companies with big supply contracts and the associated requirements to fulfill may not be applicable to a smaller company. But even a small company should have a basic system of Quality which should be enhanced over time. Let’s get specific and drill down to the topic of Crimp Quality. Considering the pre-production validation and process monitoring, consider the essential tools for a basic Quality System:
Crimp Height Micrometers
Blade Micrometers (or Digital Calipers)
A system of recording measurements
Validation Tools above
Crimp Force Monitors on bench and automation mounted crimp presses.
Visual Inspection Requirements
Requirements for Frequency of Measuring production
Knowing what a good crimp is (and isn’t) is not evident with a visual external inspection. You need to look inside. Often a view of the interior of the crimp can quickly provide clues to conditions which can affect quality and contribute to increased processing costs of rework. For example:
Wire assembly failures. High electrical resistance which can cause an overheard electrical connection.
For this you need to Cross Section the Crimp. This gives you a view into the material matching (wire/terminal) as well as the process tooling.
Bend Angle is a condition from the terminal crimp process. As a wire is crimped to a terminal, material is extruded outward and can cause the terminal to bend (banana shape). This condition can cause mating issues when connectors are mated together. Also, a potential of high electrical resistance in extreme cases of mating miss-alignment. An emerging measurement requirement in USCAR 21 for automotive wire harnesses.
Networking Crimp Quality.
Software and hardware networking are becoming more economical solutions to handling data. The right automated solution can reduce pre-production validation time and errors from manual data entry. Also, it removes subjectivity from validation and in-process monitoring (it looks like a good crimp therefore it is a good crimp – a big mistake in thinking). Do you Trust or Validate?
What about Equipment Maintenance?
Most companies have a maintenance program for their processing equipment. But is it effective enough? How many crimps from a set of tooling? I have calibrated our crimp press(es) but have I determined its (their) capability to produce repeatable crimp force and shut height?
Knowing comes before Doing.
Let’s face it, we are not experts in everything. Nor should we pretend to be. It is easy to start without the knowledge of what is needed. But is it effective? Industry Experts can come alongside your personnel to guide the process and provide critical advice to focus your efforts.
Scaling Crimp Quality is important in all companies who process wire assemblies. One size does not fit all. If you already have a crimp quality system (which we hope you do), what knowledge and tools do you need to make your system better. If you do not have a crimp quality system and no reported quality failures, the clock is ticking for one which could come. Don’t take the risk, obtain the knowledge of what is needed and get started with the basic tools.
We live in an environment of automation. Everywhere there are new developments in systems for making our lives more convenient. Our smartphones have become “smarter” with virtual assistants that have the right answer at the right time. Casual dialog is filled with terms like “virtual reality”, “artificial intelligence” and “the internet of things”. People are more connected now than any time in human history.
As the plant floor is automated how do we mix people decisions with those made by machines? Do we continue to trust the good but perhaps biased intentions of a worker. Or do you free them from routine decisions with the assistance of machine based systems?
We will dive into this topic and specifically in the crimp validation process. What is the decision process for the wire termination your worker has in their hand before they start producing wires? That decision has far reaching implications. Here are a few points for consideration.
Good information is critical.
Quality standards are derived from the source of the material. In the case of electrical terminations the terminal supplier is your source for measurement standards. Factors such as crimp height and width for wire and insulation crimps, pull test and visual standards. Also associated tolerances. This information should be collected for each process setup and can be stored into a server computer.
Although not a core part of this discussion, the proper tools are also critical. For Crimp Validation, use only Crimp Height Micrometers for measuring conductor crimp height and calipers or blade micrometers for conductor crimp width as well as insulation crimp height and width. Pull test as a secondary measurement of crimp secure-ness and Cross Section Analysis to verify the internal crimp shape.
A system to pass that information to the personnel on the plant floor.
Good information is useless unless it is available for proper pre-production validation. Connecting client computers at locations on the plant floor or data entry modules on the processing machines provides provides an access point to retrieve the validation standards required. Also a potential portal for entering validation data for trace-ability and analysis.
A process that removes subjectivity from the decision to start production.
The operator of inspector has a pre-production crimped wire in their hand. At this point how do you verify the wire has been measured and meets all of the established standards. Or a few measurements pass and a few do not.
Without adequate controls, subjectivity be the plant floor personnel can creep in. Perhaps the rush to get into production can pressure personnel to cut corners and accept parts which do not fully meet quality. No matter how well trained personnel are, they are the last line of defense in pre-production and opinions can affect judgement.
Locking the equipment out of production until pre-production samples pass quality test is an important move. It is important to assure your personnel that this is not personal against them. Rather it protects them from fall out in failure conditions.
A properly configured network system with modules on production equipment can perform the dual function of production validation and release of the processing equipment for production.
In-Process Changes affecting Quality
Any change during production is an opportunity to introduce variation into the process. In the case of a wire termination, changing wire (reel or barrel) and terminal (reel) can change the process. In the case of applicator tooling, when the applicator is removed for maintenance like crimp tool changes, this is also a possibility for variation.
This presents you with two options: you can continue without validation or validate when the process changes. Not validating represents a risk which is hard to quantify. Material suppliers and tooling can have varying effects. The safer option is to perform a validation to confirm the changed process matches the initial validation. Having the ability to lock out the process equipment after a material change or maintenance and forcing a validation is a good practice. This removes any subjective opinions from creeping in.
Measure, analyze and improve.
What gets measured gets improved. Having good information as a baseline is a good first step. The next step is analysis. Considering the strengths and weaknesses. Focusing on those areas that can contribute to long (or short) term failure in a product. Then acting on the analysis. This is fundamental to any quality improvement process.
There is a great amount of information that can be pulled from validation and in process monitoring of production. The important factor is the system. You can pick a manual method or automatically collect data from production machines and other measurement sources. Choosing an automated method removes a significant amount of manual data entry not to mention the potential of transposition error.
Tying it all Together.
You likely have most of the piece in place to automate the quality process. From production equipment to the measurement tools to validate and monitor output. Having a central server with validation standards and production data is a gateway. Connecting the components together provides the pathway for good two way communication between the plant floor (people and machines) and the server with the data collection and analysis capabilities to turn raw data into useful information for analysis and quality improvement.
At the 17th Annual Electrical Wire Processing Technology Expo, Terry Curtis President of WireProcess Specialties presented the seminar “How Do You Inspect Your Crimps?”. This seminar was presented as a teamwork effort between WireProcess and our Global Technology Partner: Crimping and Stamping Technologies.
The seminar was presented to a capacity crowd at the Expo. This speaks into the need for more information on crimp validation techniques. Crimp Quality is a topic we as a company are passionate about.
Terry Curtis, WireProcess Specialties at the 2017 Electrical Wire Processing Technology Expo.
Terry started the discussion by stating ” it only takes one bad crimp”. It only takes one miss-applied crimp to render a wire harness defective. There are a range of implications from repair of the affected harness to in house sorting of larger batches of harnesses. Certainly the customer relationship can be affected with legal liability a possibilities in severe cases. Can you company afford the risk?
A Quality Crimp: It All Starts Here.
A quality crimp starts with fundamental crimp specs, typically established by the terminal supplier. This includes the physical geometry of the crimp section, visual attributes and measurement standards. An emerging specification (bend angle and parallelism) which affects the mating of connectors was presented.
Bend Angle can cause interference issues with connector mating.
An excerpt of a comprehensive study into crimp compression as it affects electrical resistance was shared to illustrate the co-relationship between compression and electrical resistance and the effect compression has on mechanical crimp strength (Pull Test).
The take away from this section was the terminal suppliers based on their design and testing of crimp geometry produce a “Recipe” to follow. The end user’s task is to “Follow the Recipe”.
Apply the Recipe.
Pre-Production validation involves taking the “Recipe” and ensuring the specifications are met. Prior to production start. Required measurements, methods and the proper measurement tools were discussed. Visual inspection was also covered as well as a few tips on how to spot a wire under compression in a terminal were uncovered.
The shape of the terminal, measured through Cross Section Analysis shows how the crimp tools form the terminal and the distribution and compression of wire strands. A good indicator of crimp to crimp consistency and a factor in “false CFM readings” (which are not really false at all).
Validation alone is not sufficient to assure the quality will be maintained through the production run. Factors which can affect quality during the production run were discussed. Also stressed was tools which are used in the validation process are also used to measure crimp quality during production.
A Crimp Monitor (CFM) is an essential tool in process monitoring. The CFM provides 100% real time monitoring of crimp force and detection of typical crimp defects.
The CFM Cycle, a topic introduced in our 2016 seminar outlines what can happen when constant alarms from a CFM are not investigated for their cause and CFM tolerances are opened up to stop the CFM alarms.
Applicator and Press Capability and Maintenance.
Applicators and Crimp presses are the two critical processing tools for the crimp process. Maintaining this equipment to ensure they provide statistically repeatable crimp performance.
Ensuring the Applicator crimp tools are within the manufacturer’s specifications is the most critical attributes of an applicator. Also important are feed and cut off system and general wear of the applicator body and feed track.
The press is the common factor and sees more wear and tear than an applicator which is removed after production. Assuring the shut height is calibrated is one factor. But statistically repeatable shut height and crimp force is required to assure consistency during production. Press Analysis is a very important aspect of equipment maintenance.
As illustrated below, a repeatable press (Shut Height and Press Force) equals smaller tolerances with the CFM which means the CFM’s ability to detect smaller defects is increased. The converse is true when a press is not repeatable. This equation also can apply to the Applicator.
A validated crimp indicates the recipe is followed, and production monitoring assures the process stays within the validated tolerances during production. But what about your plant personnel? What happens when all of the materials and processing tools converge for production?
How can you be assured that the right materials and tooling are used? And what about validation specifications. Are they followed?
What about material and tooling changes, how do wire and terminal changes as well as applicator maintenance affect the initial validation?
Networked production equipment and measurement is a way to assure the right materials and tooling are deployed. Also measurements attributes are validated and re-validation occurs when process parameters change.
Any quality initiative lives and dies with Management support. Management needs to be actively involved in assuring resources are acquired and deployed, personnel are trained, systems are created and they measure the overall improvement of quality. Cooperation between functional areas (production, quality, set up and maintenance) are ensured.
How Do You Inspect Your Crimps? A fundamental understanding of crimp development and validation techniques is an important first step. Production Monitoring ensures validation specs are maintained through the Production cycle. Using the right tools for both Validation and Monitoring is very critical. Maintaining production equipment is also critical to assure consistent piece to piece results. Networking ties it all together and removes some of the routine decision making from plant floor personnel. Quality Improvement programs live and die with Management support.
If you are evaluating your current crimp quality system, get started right with Crimp Quality Solutions. End to End support for the terminal crimp process. Ready to get started? Click here.
It is simply not enough to know what needs to be done, you must apply the knowledge and translate it to action. In today’s production environment, there is little room for error. Wth razor thin margins, quality issues can be costly to an organization. Not only in hard currency (returns, rework etc..), but also in reputation. Avoiding quality issues is critical to a company’s future. Cutting corners is not a solid business strategy.
To assure your terminal crimps are the best quality from part one to the end of a production run, the right tools must be used. It should be noted that there is a convergence in the use of Quality measurement tools between pre and in-process monitoring.
Here are the essential tools used to validate and monitor crimp quality.
If you have calibrated your crimp press to the standard shut, your press has demonstrated capability for shut height alone…. for that one piece. In order to determine the press is statistically capable, shut height and press force need to be evaluated. And that requires more than one press cycle. The PAL4000 Press Analyzer accomplishes a full capability study of the press. And it stores the data for comparing with past press studies. Maintenance will benefit by prioritizing press service.
Crimp Height Micrometer
A Crimp Height micrometer is critical to measure the wire crimp height during validation and process monitoring. The flat anvil rests on the top of the crimp while the pointed spindle rests in the underside (center) of the crimp.
Other measurements like wire crimp width, insulation (height and width) as well as strand diameter. Digital Calipers can also work, but resolution (two decimals) is lower than blade micrometers (three decimals).
As a secondary crimp test, pull testers measure the secureness of the crimp. Motorized pull testers pull the wire at a constant rate and takes out the operator (or operator to operator) variation. Automatic data logging reduces time and potential for entry error.
Crimp Cross Section
What was once a dedicated crimp development tool in large wire harness and terminal stamping companies can now be found in quality departments and and the production floors of a wide range of companies. Quick sample preparation and imaging are standard features. X-Scan is a powerful software analysis tool with automatic crimp profile tracing and a full list of crimp attributes.
Crimp Force Monitors
Crimp Force Monitors are a standard quality tool in wire harness production. Crimp Monitors use force sensors mounted to the press and convert force to a crimp curve which when compared with pre-production validation samples, can detect typical defects such as strands missing and insulation in the crimp. Crimp Monitors are mounted to both automatic processing machines and bench top presses.
Processing inputs for crimping include the operator and process tools (crimp applicator), materials (wire, terminals). Crimp tests include crimp height, pull test, cross section and Crimp Monitor teach in. Verifying this information prior to production is possible but prone to human error. Automating using a client/server system takes error out of the process by comparing processing inputs with established standards stored on a server computer.
Our Global Technology Partners Crimping and Stamping Technologies are highly specialized in the crimp testing process. An authority in a crimp validation and process monitoring, C&S supplies all of the above technologies and are constantly adjusting their processing solutions to meet new demands of the wire processing industry. That and the global support provided by their experienced technicians make C&S a valuable partner in crimp quality.
No matter where you company is in it’s wire harness journey, WPS and C&S have you covered. We are there to support your requirements from end to end. Visit CrimpQuality.Solutions and click the Let’s Get Started Link.
By their body language and words, companies say it all;
“Why monitor our crimp process with more than the most basic of tools? After all over the years, our products have performed with no problem without adopting more than is necessary?”
On the surface this may be true. But lurking under the surface are problem issues that can costing your company now and in the future.
Consider the following scenarios:
Internal process rejects or rework that goes unreported. Like a bad crimp that is simply clipped off and an operator re-strips the wire and crimps a new terminal to the wire. Adding variation to the process by manually processing the wire without validating the results.
Mismatched wire and terminals. A mismatch between the terminal and wire, especially the terminal being too big for the wire can cause excess variation in the crimp process and electrical performance issues like high resistance. Process variation is a hidden cost to production while high electrical resistance is a potential long term product failure.
Worn production tooling creating batches of parts which can create assembly issues upstream. Deformed terminals from compensating for worn tools are one problem.
Mainstream OEM terminal suppliers invest an extensive amount of resources to ensure the connector they design performs properly on the factory floor and in the actual product over it’s life expectantly. They provide the processing test requirements to assure the terminal is assembled properly. So why do so many companies not validate their assembly to the recommended specifications, never mind monitor their assembly process?
So let’s talk about the transition from pre-process validation to process monitoring. For that you need to think about this fact:
In a lab environment, processes are controlled and highly repeatable. In a production environment, external variation exists which can affect the final product quality.
Without real time process monitoring, depending on single or spot in-process inspections does not give you any solid information on the capability of the terminal crimp process. And that is a missed opportunity for process improvement which can provide improved efficiency and reduced process costs. Which is the Benefit to the Cost of Quality.
One important point to remember is that process monitoring tools do not improve quality in and of themselves. But they can raise issues on individual setups which should be reviewed at the time. Otherwise you can be trapped in the CFM Cycle.
Using the right tools in crimp development and validation in addition to process monitoring can provide the opportunity to improve crimp quality. Establishing a base line of quality and deploying a quality improvement strategy can reap great dividends in cost reduction, customer retention and potential for new customer acquisition.
CrimpQuality.Solutions provides end to end support with your terminal crimp process.
Training, Consulting and Support Services are an integral part of Crimp Quality Solutions, part of the WireProcess Specialties portfolio of solutions for processing wire assemblies.
One of the strengths of WPS for almost four decades has been in the supply of terminals, crimp tooling and crimp monitoring systems. It has become evident that a comprehensive offering to our customers is needed. Which is beyond the physical acquiring and deployment of components, processing and process monitoring monitoring equipment.
Our engagement starts first with an assessment of your current crimp process. We can perform this either in house or through a virtual connection.
Training material is custom tailored to the company’s needs with one or more of the following topics:
Pre-production crimp validation
Crimp Process equipment set up
Pre-production crimp testing
Training can be performed in house or via webinar.
Crimp Quality Solutions Support Services are a vital link in the implementation of a Crimp Quality improvement strategy. Our in house Crimp Cross Section lab gives you a start in documenting crimp conditions. Crimp Press Analysis assesses the condition of your crimp presses, a critical component of your crimp process. Crimp Cross Sectioning is a vital tool in validating and process monitoring a crimp. Cross Section provides a peak inside the crimp and tells a lot about the performance of the crimp process and inherent variation.
Back in the day, training for personnel was readily available from suppliers or internal company experts. Does it seem that access to training and has become scarce. Do you sense the “brain drain” as knowledgeable people are retiring and not being replaced? Perhaps Crimp Quality Solutions is for you.
Crimp Quality Solutions is part of the WireProcess Specialties portfolio of solutions for companies processing wire harnesses and electrical assemblies which include a terminal crimped to wire.
Consider the following questions:
We only make a quick measurement of crimp quality and a visual inspection pre-process. We do not have any idea what the capability of our crimp process is.
We have received a review request from a customer about our crimp quality or have had to address rejected wire harnesses with faulty crimps.
We have installed crimp monitors to our bench presses or automated wire processing machines and have chronic error signals from one or more crimp applicator set ups. As a result, we have opened up CFM tolerances to stop the error signals or completely shut off the monitors.
We want to establish a baseline of our crimp quality and improve quality over time.
If you answer yes to any of these questions then Crimp Quality Solutions is for you. We offer end to end support of the crimp process. Our support covers three areas:
Training and Consulting.
Quality Validating and Monitoring Technology.
We start with a free assessment of your current crimping process. We review the assessment and where required, consult with our industry experts and provide a proposal that covers one or more of the above areas of support.
If you do not measure crimp quality as part of your quality system, you are at risk of product failure, costly rejects or recalls and reduced customer confidence. Because it has not happened so far does not change the fact it could in the future. There is a cost of inaction when it comes to product quality.
This year (2017) marks the 70th anniversary of ETCO Inc., our first Global Technology Partner. A partnership that spans three generations on the ETCO side, two with WPS. If you have not read our interview with John Stiness, VP of Sales, it can be found here. In recognition of this event, I thought it would be appropriate to document our journey with ETCO though more than half of the 70 years ETCO has been around.
Our connection with ETCO began several years before WPS even existed. The founder of WPS Jim Curtis, started working with the previous ETCO representative in 1973. During those years, Jim spent a considerable amount of time working with existing ETCO accounts and developing new relationships.
In 1978, Jim formed James Curtis and Associates (JC&A) and the Wire Process Specialties name was born. JC&A was awarded the representation of ETCO in Canada (known at the time as Electric Terminal Corporation).
From this time through to 1992, JC&A and ETCO built up a local Canadian division to manufacture and distribute terminals. In 1982, our first stamping press was delivered and we commenced producing terminals. For the next 10 years, we jointly grew our customers and supply of terminals across the country using our manufacturing and distribution system. A number of those customers still exist today and continue to purchase items that we produced back then.
In 1992, with new trade agreements between countries still fresh and the reality of tariff elimination in the future, the local division was consolidated into other ETCO divisions. But the relationship between WPS and ETCO continued. From the early 90’s until 2006, WPS grew the WireProcess brand name, adding complimentary lines but with ETCO as one of the flagship relationships.
In 2006, the mantle was passed to me (Terry Curtis) and I took on the responsibility to manage the relationships that have grown over the previous three decades. With solid mentor-ship built up over 25 years of service and a vision for the next stage of the company, I took on this responsibility knowing the challenges behind us and preparing for those before us. And with a resolve to see the company evolve as business conditions changed.
Some years were hard and challenges were tough to face and get through. But with every situation we encountered, the company grew stronger and I am anticipating the next stage in WPS’ journey.
With ETCO into it’s third generation and WPS into it’s second, I pause to recognize the relationships built up over these years. Solid working relationships and friendships that stand the test of time. I also remember those associates, friends that have passed on. Their legacy within ETCO are part of the building blocks of where the company is today.
So to ETCO I say Happy 70th Anniversary. I am proud to be called an ETCO representative. I believe we are always stronger when relationships run deep. In ETCO’s case and by extension our other partners, our solid business relationships mean our customers get the best of all of us. And that is a solid win for everyone.
USCAR-21 is the quality standard that can strike fear into companies who deal with automobile assembly companies. USCAR-21 is a universal standard which applies to suppliers of electrical assemblies to The Ford Motor Company, General Motors Corporation and Fiat Chrysler Automobiles.
Companies who are not involved with automotive wire harnessing can quickly dismiss this standard as not applicable to their business and industry. Although this is true, some of the components of USCAR-21 are valuable and can be directly applied to the validation of wire terminations for any industry. Companies not considering some of the key features of USCAR21 can miss out on the benefits to quality improvement.
We will drill down to reach those best practices which can be applied to your company.
Prior to the formation of USCAR-21, each automobile manufacturer had their own testing and validation standards. The adoption of a common standard meant more efficiency in the testing process, especially for suppliers who provided wire harness across a number of automobile OEM’s listed..
The USCAR-21 standard includes mechanical and accelerated environmental tests which are designed to duplicate potential operating conditions a wire to terminal connection can experience through the expected life cycle of an automobile. Demands on the electrical system are increasing with smaller wires carrying communication signals and larger wires used in current load in applications such as EV batteries. A comprehensive standard was required to address the performance requirements through the full range of harness size and complexity. At the same time, to reduce some of the bureaucratic burden from the supplier end.
Lets bring USCAR-21 down to it’s most basic objective: Electrical connections must maintain low electrical resistance through the expected life span of an automobile. This is achieved by adhering to critical crimp design and validation criteria.
Ultimately, monitoring the crimp process during production is important to ensure specifications from the validation stage are maintained.
Here are a few considerations to the actual electrical crimp.
The terminal supplier’s recommended crimp height and width is the starting point of all initial and pre-production crimp validation. Wire terminations should perform acceptably though the tolerance range of the recommended terminal crimp height.
Crimp compression, the process of encapsulating the wire into a crimp barrel with sufficient force to deform the strands from their round shape is a major factor in acceptable electrical resistance. Compaction of the strands by 15 to 20% provides the best opportunity to pass electrical resistance testing. There is a direct correlation between the amount of wire strand compression and electrical resistance. Especially leading up to and through the above compression range.
Crimp barrel and wire size must be carefully matched to ensure the optimal compression is achieved. In combination with the proper crimp tool design. Factors indicating a poor wire to terminal match:
Wire strands under-compressed.
Strands not evenly distributed in the crimp barrel
Crimp wings curl and touch the bottom (floor) or sides of the crimp barrel.
Crimp wings with a gap at the top, with strands not fully encapsulated in the crimp or pressed on top during the crimp process.
Cross Section showing under compressed strands and voids.
Serrations in the crimp are designed to break oxides present on the surface of wire strands, providing better electrical connection. Also to assist in the mechanical secure-ness of the crimp.
Consideration of measurement methods.
Crimp Height is the primary test factor in a validation and in-process measurement.
Tensile (Pull) testing is a secondary testing method to ensure the wire termination has “sufficient mechanical strength”. It is not a determining factor of electrical performance as low or high compression can affect not only mechanical but electrical performance.
In all cases, insulation support on terminal crimps must be peeled back or not crimped at all for pull testing. Pull test readings should be made on the wire to terminal crimp only.
Crimp Cross Section un-covers the actual crimp condition from wire/terminal match and crimp tool profile. As well, crimp applicator setup can be checked (i.e.: terminal feed position).
Visual inspection criteria ensures the proper machine setup provides the best crimp. Visual factors of an acceptable crimp are:
End of wire protruding on the contact side of the wire crimp. Known as brush.
Insulation and wire (roughly 50:50) present in the “window” between the wire and insulation crimp.
Bell mouth present on insulation side of the wire crimp to protect wire stands. Bell mouth can also be present on the contact side of the wire crimp.
Insulation crimp wings should not penetrate the insulation and make contact with the internal stranding and should fully encapsulate the insulation.
Electrical and Electronic devices that are not assembled into an automobile will have their own performance parameters. In most cases they are not subject to temperature and humidity fluctuations that are present in an automobile. But totally dismissing good crimping practices and not applying some of these best practices can expose your products to premature failure which carries a high cost (and liability). That’s the important factor when Acting on the Cost of Quality, understanding the Benefits and avoiding the risks of Inaction.
WireProcess is equipped and ready to deploy the tools you need to take your crimp process to the next level. Connect Your Way to WPS.