Plastometrex

204 Science Park
Milton Road
Cambridge,  Cambridgeshire  CB4 0GZ

United Kingdom
(44)7812364150
http://www.plastometrex.com

• Booth: 1221

Plastometrex are world leaders in obtaining stress-strain curves non-destructively, and in providing fast and insightful mechanical testing solutions. Established by former University of Cambridge scientists, Plastometrex combines deep expertise in materials science with advanced numerical modelling, optimisation methods, and machine learning tools to create next-generation materials testing solutions.

We help companies, universities, and research institutions gain an in-depth understanding of the mechanical properties of their metallic components and materials in a fraction of the time and cost of conventional testing methods. Plastometrex testing solutions are based on an underlying platform technology called Profilometry-based Indentation Plastometry, also known as PIP. The technique enables full stress-strain curves and metal strength parameters to be obtained from a single indentation test in as little as five minutes. 

 Press Releases

• Simplified & Streamlined: New AM High-Temp Testing from Plastometrex (Apr 04, 2024)

  Cambridge, 7 February 2024: Plastometrex (PLX), a leading provider of advanced mechanical testing technology, is showcasing user-friendly, fast, and cost-effective high-temperature metal testing at Rapid + TCT in Los Angeles. The new PLX-HotStage addresses the AM testing challenges of prolonged testing lead times, excessive material waste, and testing complications. The PLX-HotStage delivers precise metal stress-strain curves within minutes from small metal samples at temperatures up to 800°C.

  The additive manufacturing industry often relies on traditional high-temperature testing methods, which typically involve witness coupons that are heated and then pulled to determine mechanical properties. Within an industry that always pushes innovation, the limitations of these decades-old testing techniques can have a noticeable impact on testing capabilities. Cumbersome tensile test machines, coupled with lengthy heating and cooling times, cause substantial delays in materials and product development, design optimisation, and quality control procedures. These devices require large material volumes, and the complexity of conventional high-temperature testing can hinder result reproducibility.

  In contrast, the PLX-HotStage device’s rapid heating and cooling capabilities mean that a test can be completed in as little as 30 minutes for even the most extreme temperatures, and can take as little as 10 minutes, facilitating quick testing of multiple samples. Customisable soak times provide flexibility, allowing users to manipulate the thermal history and heating profile of the sample, offering valuable insights into part performance at different temperatures. The PLX-HotStage can test on samples that are one-tenth of the size of traditional testing samples, which not only unlocks the ability to test on samples that might otherwise be impossible to test but also significantly reduces material requirements and associated testing costs.

  Not only is tensile testing both time and labour-intensive, but testing on witness coupons may not accurately represent actual part performance, which then undermines data confidence. The PLX-HotStage gives users the ability to streamline their part testing, enabling tests to be performed directly on printed parts. This unveils key insights that can be critical for product development and design optimisation.

  Speaking about the new PLX high-temperature testing attachment, Plastometrex’s Commercial Officer, Dr Mike Coto, commented, “As the additive manufacturing landscape evolves, so should our testing methodologies. The PLX-HotStage is designed to meet the demands of a dynamic industry, providing a versatile and cost-effective solution that empowers manufacturers to stay ahead of the curve. This is a tool that not only enhances efficiency but also delivers reliable and accurate results, ultimately propelling the industry forward.”

  The PLX-HotStage not only delivers high-temperature testing results at a fraction of the cost and time of conventional methods, but also at a fraction of the space. Installation of the device is simple, with the module seamlessly integrating with the PLX-Benchtop, a compact device standing at only about 60cm tall. The design ensures that the module can be quickly swapped in or out of the benchtop plastometer as needed.

  The PLX-HotStage device is currently available to order. Rapid + TCT is taking place from the 25 – 27^th of June at the Los Angeles Convention Center, stop by Booth 1221 to learn more about how the PLX-HotStage can revolutionise your testing capabilities. 

  About Plastometrex:

  Plastometrex are world leaders in obtaining stress-strain curves non-destructively, providing fast and insightful mechanical testing solutions. The brainchild of former University of Cambridge scientists, Plastometrex combines deep materials science expertise, advanced numerical modelling, optimisation methods, and machine learning tools to create next-generation materials testing solutions.

  They help companies and research and educational institutions gain an in-depth understanding of the mechanical properties of their AM and conventionally manufactured parts and materials in a fraction of the time and cost of other testing methods. Plastometrex testing solutions are based on an underlying platform technology called Indentation Plastometry. The technique enables full stress-strain curves and material strength parameters to be obtained from a single indentation test in just a few minutes.

  To learn more, visit the company’s website or follow them on LinkedIn and Twitter.

  www.plastometrex.com

  Contact:

  Amalie Lyneborg / Emma Thoelke
  info@plastometrex.com
  204 Cambridge Science Park Milton Rd,
  Milton, Cambridge CB4 0GZ

• Renishaw-Plastometrex Collaboration Spearheads Efficiency and Confidence in AM Testing (Apr 04, 2024)

  Cambridge, February 2024: Plastometrex, a leading provider of advanced mechanical testing solutions, has supplied Renishaw, a prominent additive manufacturing OEM, with enhanced mechanical testing capabilities. The collaboration focuses on incorporating Plastometrex’s proprietary PIP (Profilometry-based Indentation Plastometry) technology and results into Renishaw’s testing processes, increasing the precision and efficiency of mechanical property analysis and part confidence in additive manufacturing.

  Tensile testing in the AM sector presents several challenges. First, the time and material required to produce tensile coupons take up significant chunks of project timelines and budgets, while the use of separately printed tensile coupons often fails to fully represent the mechanical properties of complex additively manufactured parts, potentially affecting the reliability of data.

  Renishaw’s adoption of Plastometrex’s PIP testing tackles these challenges head-on. The PLX-Benchtop facilitates rapid, direct testing on different sections of AM parts, delivering comprehensive stress-strain curves in minutes. This method provides a more precise evaluation of a part's mechanical properties and complements Renishaw’s existing testing procedures.

  By enabling users to directly test an additively manufactured part, and in several different locations, the PLX-Benchtop equips Renishaw with a significantly more detailed understanding of the mechanical properties of a part while streamlining the testing process. The test itself is largely automated, taking under five minutes and requiring minimal sample prep. Furthermore, through bypassing the need for coupons and associated material and machining, Renishaw is set to benefit from mechanical testing cost and time savings.

  Benjamin Haigh, Materials Scientist at Renishaw, commented: “We can now use cubes built for product development for additional testing, saving us time and money. Additionally, the PLX-Benchtop can generate mechanical data for a wider range of parameters.”

  Jed Robinson-Wall, Materials Science graduate, added: “PIP technology is a fantastic complement to our existing mechanical testing regime. It gives us even greater insight into the quality of parts produced on our RenAM 500 series of metal additive manufacturing systems.”

  This collaboration not only surmounts the traditional limitations of tensile testing but also sets a new standard for accuracy and efficiency in mechanical property analysis for additive manufacturing.

  About Plastometrex:

  Plastometrex are world leaders in obtaining stress-strain curves non-destructively, and in providing fast and insightful mechanical testing solutions. Established by former University of Cambridge scientists, Plastometrex combines deep expertise in materials science with advanced numerical modelling, optimisation methods, and machine learning tools to create next-generation materials testing solutions.

  They help companies, universities, and research institutions gain an in-depth understanding of the mechanical properties of their metallic components and materials in a fraction of the time and cost of conventional testing methods. Plastometrex testing solutions are based on an underlying platform technology called Profilometry-based Indentation Plastometry, also known as PIP. The technique enables full stress-strain curves and metal strength parameters to be obtained from a single indentation test in just a few minutes.

  To learn more, visit the company’s website or follow them on LinkedIn and Twitter.

  www.plastometrex.com

  About Renishaw:

  Renishaw is a world leading supplier of measuring systems and manufacturing systems. Its products give high accuracy and precision, gathering data to provide customers and end users with traceability and confidence in what they're making.

  It is a global business, with over 5,000 employees located in 36 countries. The majority of R&D work takes place in the UK, with the largest manufacturing sites located in the UK, Ireland and India.

  For the year ended June 2023 Renishaw recorded sales of £688.6 million of which 95% was due to exports. The company's largest markets are China, USA, Japan and Germany.

  www.renishaw.com/en

  Contact:

  Amalie Lyneborg / Emma Dodds
  info@plastometrex.com
  204 Cambridge Science Park Milton Rd,
  Milton, Cambridge CB4 0GZ

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