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Materials researchers – bring your impact testing knowledge right up to date by attending this online symposium
Dates: Tuesday 9th Dec, starting at 2pm GMT
Real materials in service often suffer many small, random impacts rather than single, repeatable ones. New techniques, such as randomised impact testing and impact tests that reach very high strain rates are being introduced to respond to the difficulties of, for example,
✅ accurately replicating service-scale impact conditions,
✅ dealing with scale and boundary effects
✅ being able to measure deformation and failure modes in real time.
Join the symposium to hear how the new techniques have been used to overcome such challenges in applications areas including coatings, biomaterials, & aerospace.
Prof. Nigel Jennett, Strategic Measures Ltd, Rugby
“Instrumented Impact Testing: It’s IIT, Captain – But not as We Know It”
Prof. George Youssef, San Diego State University
Nano-impact of impact-tolerant Elastomeric Polyurea
Prof. Ben Beake, Micro Materials Ltd
Getting more out of impact testing with multi-metric analysis
Dr Luis Isern Arrom, Cranfield University –
Simulating TBC-erosion by impact damage
Mr Alessandro Bertè, Lafer spA
Optimisation of DLC coating structure for fatigue resistance
Mr Taige Hao, University of California, Irvine
Bio inspired impact-resistant nanocomposite coatings
Dr Daniel Toboła, Krakow Institute of Technology
The role of multi-layer coating structure in providing damage-tolerance of M2 steel – tribological and micro-impact response
Success in the metals industry depends on accurate knowledge of element concentrations. Having this information at your fingertips and faster than others will give a competitive edge.
Join us for the product launch of a new spark optical emission spectrometer (spark-OES) that will move your business forward. Our advanced technology gives you the information you need faster, more accurately, and whenever you need it – with the highest instrument reliability guaranteed:
The ALUCAST 2022 International Mega Event intends to help steer the Die Casting & the Allied Industry towards more environment-friendly, smart solutions and many more…
Dynamic Technology Systems (DTS) is a premium partner of Bruker AXS in India, driven and lead by CEO Mr. Suyash Nadkarni. Mr. Nadkarni has managed analytical instrument business in India since 1997. Having been a part of the Bruker AXS team in India since 2011, Mr. Nadkarni established his own company in 2015 and began as a distributor for OES and CS/ONH analyzers. DTS is engaged in marketing, sales and service of advanced technology instruments and equipment involved in material inspection, testing, research, and analysis. The reason for DTS’s success is a knowledgeable, results-oriented sales team with many years of experience, and a dedicated technical service team which is continuously striving to exceed customer expectations. Bruker AXS and DTS have a strong relationship and together have driven business growth steadily in the past years. DTS and Bruker AXS invite you to join the 70th Indian Foundry Congress and IFEX in India on April 17-19, 2022. At this largest foundry event of India, DTS and Bruker AXS will showcase the new Q4 POLO and G4 ICARUS for metals analysis.
Registration is free and the event will last approx 2 hours.
Follow this link to the registration page, hosted for MML by Surface Ventures:
The focus is high temperature nanoindentation but not exclusively so, and users will have the chance to interact with our Applications experts in a Q&A session.
The event is also open to users of nanomechanical testing equipment from other suppliers.
Dr Suresh Babu, ARCI, FIU and ITT Kanpur
Influence of substrate properties on the deformation behaviour of TiN coating under nano-impact testing
Dr Rakesh Barik, CSIR-CECRI, Karaikudi
Use of nanoindentation to study the corrosion mitigation phenomena
Professor Saurav Goel, London South Bank University
Recent advances in simulation driven nanoscale manufacturing research
Professor Vikas Tomar, University of Purdue,
High temperature indentation – based plasticity measurements in additive and subtractive manufacturing
