Moldflow Process and Approach

November 21, 2014

Moldflow Process and Approach

November 21, 2014

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I’m always asked questions about what is in our Moldflow reports and how do we approach an analysis. The answer is always the same. We run our Moldflow Process like we run our molding machines. Defined procedures and methods are followed to ensure all potential opportunities are captured. This in turn allows us to improve the manufacturability of the design and reduce its cost.

First of all, the first stage in providing an accurate and quantifiable Moldflow Process is to establish the key inputs. These are:

  • Material Data – Moldflow Plastic Labs tested data provides the most accurate results. Deviation from this can reduce the accuracy of the results. (Source: Knowledge Autodesk)
  • The 3D model of the component for analysis – Ideally this model should have all cosmetic fillet radii and logos/ lettering removed. Leaving these kinds of features on a model increases the analysis time or time for an analyst to manually remove them before meshing. The model should be scaled up to the nominal linear shrinkage as defined by the material manufacturer. Material data and the 3D model are the most important inputs and their quality will dictate accuracy, analysis time, and repeatability. When these inputs are established we move onto the analysis setup stage.
  • Define the mesh type, density, and also carry out the mesh refinements and repairs. The model mesh affects all the analysis results.
  • Define the gate locations.
  • Set up the first set of process settings. The process settings should always be set up with the molding machine operator and the capabilities of the client molding machine in mind.

First Analysis Reporting

With the first analysis set completed, we review the results from the different gating options.

At this point, we can provide the first analysis report to compare the gate option results. We will also be able to select the preferred gate location for the next stage. Additionally, we make the first recommendations for any changes to the component design.

When the gating location is fixed, a final component model is received along with a defined feed system and cooling lane design. We then move onto the final stage. Here, the process is optimized for shrinkage, dimension control, shear rates, and warpage deflections

  • Model the runner system
  • Model the cooling system
  • Optimize the filling and packing profiles to achieve defined shrinkage or dimensional properties and control Warpage deflections.

At this point, we put together our final report with all the results and recommendations for design changes to the component, feed system, and cooling system design.

Further analysis may be required if the recommended changes are made. Additional reports will be compiled to show the impact of these changes on the results.

Using a defined and consistent approach to Moldflow analysis ensures that all analysis results are as reliable as possible and all the processing concerns are explored and addressed.

Moldflow as a Tool of Continual Optimization

Likewise, utilizing Moldflow as a tool of continual optimization of a design from the early stages all the way through to production will result in component designs that are robust, dimensionally stable, and can be processed with normal processing ranges. Therefore, these combined with optimized mold tool design will accelerate the time to market by reducing the mold tool debugging and validation stages.

By Andrew Hodson, Managing Director, Verus Precision.

Contact Andrew Hodson for more information. Moreover, be sure to subscribe to our NEWSLETTER to receive our technical blogs, customer updates, and latest developments.

Introduction 

As 2024 unfolds, the field of metrology is witnessing transformative changes. At Verus Metrology, we recognize the importance of keeping pace with technological advancements and new trends in the science of measurement. In this rapidly evolving landscape, innovations in metrology are not just about achieving precision; they are about meeting the evolving challenges of industries like medical devices, where accuracy is critical for ensuring safety and quality. This article explores the emerging trends and technological breakthroughs shaping metrology’s future. 

As 2024 unfolds, the field of metrology is witnessing transformative changes. At Verus Metrology, we recognize the importance of keeping pace with technological advancements and new trends in the science of measurement. In this rapidly evolving landscape, innovations in metrology are not just about achieving precision; they are about meeting the evolving challenges of industries like medical devices, where accuracy is critical for ensuring safety and quality. This article explores the emerging trends and technological breakthroughs shaping metrology’s future. 

Metrology Fixture Types – What’s Available, and Which is Best?

9 February 2023

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Fixture type and use cases

Metrology fixturing technologies continue to develop at a rapid pace, offering manufacturers in the medical device industry new and innovative solutions. Those solutions don’t just meet inspection and quality process requirements, but they also deliver efficiency savings and productivity gains. How do you know what metrology fixture types are available and which is best for your application? In this blog, we’ll outline the main options, their underlying technologies, and the use cases they are best suited for. 

However, it is also important to point out that the fixture types described in this blog represent broad categories. Within those categories, there is an infinite number of ways that a fixturing solution can be developed to meet your specific needs, reduce risk, and take advantage of opportunity

While there are metrology fixture types that we can explore, every fixture solution that we develop here at Verus Metrology is completely unique. In other words, fully customised for the product or component being measured, as well as the inspection machine, quality department workflows, production processes, and any other influencing factor. 

Metrology Fixture Types 

There are six main metrology fixture types: 

  • Auto rotational 
  • Manual rotator 
  • Multi-station
  • Proof of Principle (POP) 
  • Vision system 
  • Docking station 

 

Auto-Rotational Fixtures

Isometric view of an auto rotational metrology checking fixture, the automatic part of the fixture is the turning of the rail by a motor. The fixture has white plastic components held in place using brown clips

 

At a fundamental level, the job of a metrology fixture is to hold a product or component securely in place so it can be effectively inspected and measured. However, there are situations where the inspection process requires the part to be presented at different orientations to enable all the relevant measurements to be taken. This requirement for measurement in multiple orientations is increasing as medical device products become more complex and intricate. 

Auto-rotational fixtures enable the inspection of products and components in multiple orientations with minimal operator intervention. An auto-rotational fixture can be a single-station set-up, but they more commonly come in multi-station designs to minimise the time it takes to achieve your required sample rate. 

The most important feature of an auto-rotational fixture is that you can measure multiple components in multiple orientations in a single setup. 

Manual Rotator Fixtures

Manual Rotator Metrology Fixtures by Verus Metrology

Manual rotator fixtures offer similar benefits to auto-rotational fixtures. The obvious main difference is that operators manually rotate components once they are loaded into the fixture. 

Manual rotator fixtures can be multi-station. They are also designed so that all measurements in all orientations can be taken in one set-up. So, while the operator will need to manually control the rotation mechanism, there is no requirement to touch or adjust the components as the fixture holds them securely in place during rotation. 

The benefits of manual rotator fixtures include: 

  • Significantly reduced operator intervention 
  • Improved measurement accuracy 
  • Elimination of errors 
  • Faster and more efficient metrology processes 

Furthermore, we can design your manual rotator fixture so it can be loaded with components away from your CMM. This improves CMM availability as the machine doesn’t have to sit idle while components are being loaded onto the fixture. 

Multi-Station Fixtures 

multi station rotator

According to FDA regulations and ISO 13485, it is essential that you can statistically justify sampling rates in your quality procedures using a risk-based approach. The operational part of this requirement isn’t covered in the guidelines, but it is an important business consideration. How do you efficiently, accurately, and cost-effectively inspect the number of products or components that are required to hit your sampling rate target? 

Multi-station fixtures are a common solution. We can design multi-station fixtures in any configuration. This could be a large cavity multi-station fixture, a fixture to inspect very small and complex medical devices, or solutions for products or components of any size, geometry, or characteristic. 

The benefits of multi-station fixtures include: 

  • Operator intervention is greatly reduced 
  • Fixtures only need to be loaded once before full inspection routines can take place on multiple products at the same time 
  • Reduce human error 
  • Speed up inspection processes while achieving your sampling rate target 
  • Reducing the cost of inspections 

 

Proof of Principle Multi-station Prototype Fixtures 

proof of principle

 

In many product development and process change situations, it is beneficial to have a POP fixture that can be used for verification and validation purposes. The approach we typically take at Verus Metrology is to design a multi-station fixture to deliver on your requirements. 

However, before this multi-station fixture design goes into manufacturing, we design and produce a single-station POP prototype fixture. This POP prototype can be manufactured quickly in our advanced manufacturing facility. We’ll then put it through a gage R&R study to give you confidence in its repeatability and reproducibility, before sending it to you for evaluation and testing. 

POP prototype fixtures offer a range of benefits: 

  • Facilitates design for inspection during the product development process 
  • Minimises delays in process verification 
  • Enhances and speeds up the design transfer process 
  • Reduces time to market in line with regulatory requirements 

 

Vision System Solutions

We also design and manufacture fixturing solutions for vision systems in addition to the fixtures we design for use on CMMs. Fixturing solutions that are optimised for vision systems have a number of specific and differentiating features, including ensuring there is a clean and clear view of the part. 

Vision system solutions can also allow for backlighting where necessary. Furthermore, a single set-up is all that is required for the full inspection routine to take place, with parts securely held with as little force as possible. 

 

Docking Systems 

Docking System Verus Metrolody

Docking systems enhance the efficiency of quality departments that use multiple fixtures and/or have high sampling rates. Docking systems are securely fixed to CMMs to make it quick and easy for technicians to load fixtures that are fully set up with components ready for inspection. Once the inspection routine for a fixture is complete, it can be quickly and easily removed from the docking system ready for the next fixture to be loaded. 

With a custom-designed docking system, you can have confidence that each changeover results in precisely secured fixtures for repeatable and reproduceable inspections. 

Choosing the Right Fixture for Your Requirements

There are many factors to consider when choosing the best type of metrology fixture for your requirements. Your budget is an important consideration, as are your ROI goals, quality processes, quality resources, and future requirements. 

The best approach is to speak to a fixture design expert to explore the options and get an understanding of what is possible. Contact us today to find out more. 

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About Verus Metrology Partners

Verus is committed to the enhancement of our client’s metrology laboratories, machine efficiencies, and inspection processes. Since our beginning, our expert metrology engineering team has partnered with some of the world’s largest MedTech multinationals.

 

We specialize in high quantity, difficult to measure, yet critically important, medical device parts. As well as working in the MedTech, Pharmaceutical and Personal Care industry, we also work with metrology departments in the FMCG and Aerospace industry.