Tensile stress-strain
curves in minutes.

Name: PLX-Benchtop
Brand: Plastometrex
Availability: InStock
Rating: 5 (9 reviews)

Materials engineers turn to the PLX-Benchtop when they need true mechanical properties - not hardness proxies - and when destructive tests are too slow, impractical, or even impossible.

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Powering testing at NASA, Airbus, and more

Reduce reliance on tensile testing with
fast & cost-effective insights

The PLX-Benchtop provides tensile testing results in a fraction of the time and with a fraction of the material. By adding the PLX-Benchtop to their in-house testing workflow, a leading additive manufacturing OEM reduced tensile test requirements, saving over $125k annually on testing and material costs alone.

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Non-destructive

Measure stress-strain curves and metal strength parameters like yield and ultimate tensile strength (UTS) non-destructively.

Results in minutes

Generate stress-strain results in as little as 5 minutes with minimal sample prep and streamlined testing - a fraction of what’s required by traditional tensile tests.

99% less material

Test directly on real components and samples, as small as 1.5 x 1.5 x 0.75 mm (0.06 x 0.06 x 0.03 inches), bypassing the need for costly tensile testing specimens.

More data, more informed engineering decisions

Test the untestable

Unlock stress-strain curves from welds and thin, small, or complex samples, unsuitable for tensile testing.

Map what matters

Indents can be spaced as close as 1.5 mm / 0.06 inches apart, allowing property mapping across welds and complex parts, revealing variations that tensile testing may miss.

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Color gradient 3D model of a tensile test specimen, transitioning from blue on the left to red on the right, indicating stress distribution.

Tensile testing one ASTM E8 specimen provides one stress-strain curve.

The PLX-Benchtop could extract over 160.

How it works

The PLX-Benchtop is powered by PIP Testing (Profilometry-based Indentation Plastometry), a method developed by Plastometrex and internationally recognised by ASTM standard E3499-25. PIP Testing is non-destructive, measuring stress-strain response via a small indentation and finite element analysis. The method has been extensively validated against tensile testing, both by Plastometrex and independent third parties including Nikon (see Nikon validation study).

Indent sample

A small indent (ranging from ~0.25-1 mm wide and ~25-200 µm deep, depending on indenter size) is created on the material’s surface.

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Measure shape

The indent is then scanned by an integrated profilometer, which captures the shape of the material deformation.

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Finite element analysis

Using advanced finite element modelling, the software runs a simulation of the same indentation test, continuously adjusting the material properties in the simulation until the simulated indent matches the real one.

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Instant results

Once matched, the user is presented with a stress-strain curve, which provides key mechanical properties including yield strength and ultimate tensile strength (UTS).

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The best of both worlds

With PIP, you get all the benefits of tensile and hardness testing in one, with none of the limitations.

PIP vs Tensile

PIP vs Hardness

PIP Testing

Tensile Testing

Hardness Testing

Rapid testing

Stress-strain data

Test small/complex geometries

Minimal sample preparation

How do the results compare with tensile testing?

Use this interactive tool to discover the level of agreement between PIP testing with the PLX-Benchtop and tensile testing results.

Choose device, base metal, alloy, or processing method

Explore comparison data between PIP and tensile

Book a trial to see how PIP performs on your materials

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Explore case studies

See what our customers say

“PIP has proved to be a great tool for helping us understand our processes.”

Jed Robinson-Wall

Materials Scientist at Renishaw

"Plastometrex addresses the speed of qualification in additive manufacturing. Their novel testing method enables us to accelerate the development of prototypes and initial production parts across multiple industries."

Behrang Poorganji

VP of Materials Technology at Nikon AM Synergy

"The PLX-Benchtop enables us to generate critical material property data far more efficiently than conventional methods. I have been thoroughly impressed by the machine, it is both easy to use and reliable."

Prof. Roger Reed FREng FIMMM

Professor of Materials and Solid Mechanics at Oxford University

"The PLX-Benchtop allows us to characterise the properties of finely structured parts in an entirely new way. The data allows us to build up a more comprehensive picture of the properties of parts made via additive manufacturing, deepening our understanding of the process."

Tony Fry

Principal Scientist at National Physics Laboratory

"Materials testing and qualification is the bedrock of any robust manufacturing process and new testing tools are needed to support the adoption of AM in industry. We are delighted to be working with Plastometrex, a technology-forward company whose unique technology platform will enable us to assess, improve, and deploy additive parts far more efficiently than previously possible."

Mark Jackson

Research & Innovation at Leonardo Helicopters UK

"We intend to employ PIP on a build-by-build basis to verify that what we are doing is sound, straight off the machine, every time."

Ian Brooks

Technical Director at Additure

"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."

Benjamin Haigh

Materials Scientist at Renishaw

"Plastometrex’s novel testing technology enables us to optimise our AM materials with much less material and in a fraction of the time required by traditional methods. This transformative testing technology will play an important role in supporting the continued adoption of AM."

Kazuhiro Mizuta

Managing Director at Aeroedge

"The Plastometrex device is a key enabler for new materials discovery and screening particularly in AM."

Dr Calvin Stewart

Innovation Scholar & Associate Professor at Ohio State University

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Working in harmony with the Plastometrex technology suite

From the bespoke software that powers the PLX-Benchtop and provides a detailed analytics bank, to our expanding range of add-on modules that unlock new testing capabilities.

PLX-HotStage

The PLX-HotStage is an add-on module for our benchtop testing device that extracts metal stress-strain curves from indentation test data at temperatures of up-to 800 °C

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