How to Correct Heat Flow for Large Ambient Temperature Fluctuations – Part 1
Overview In this Tech Tip, we will demonstrate how to set up the TAM IV to optimize baseline performance when large ambient temperature fluctuations are present.
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How to Assess Binding in Drug Discovery
The most popular tool used to characterize binding in the late-discovery phase of drug development is isothermal titration calorimetry (ITC). ITC is a high-resolution method for complete characterization of the basic chemical details of a binding interaction. The calorimeters accomplish this by measuring the heat that is released or absorbed when molecules interact with each other.
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How to Access the Help Menu on the DMA 850
Overview Whether you’re new to Dynamic Mechanical Analysis or simply want to explore new accessories and testing procedures, our help guides are a valuable resource. These guides come pre-installed on your DMA 850 to help you get started. Discover tips on using different geometries, training new users, setting up experiments, analyzing data, and more. Find…
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How to Accelerate Thermal Stability Testing for High-Concentration Drugs
The stability of high-concentration drugs can change under storage conditions, but until now, thermal testing in the lab using traditional calorimetry methods has been time-consuming and challenging. The new TA Instruments RS-DSC fills a critical antibody formulation development gap by allowing for high-throughput short-term thermal stability testing at formulation strength concentrations. In this blog, we explore why that’s essential.
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How to Accelerate Successful Product Development with Rheology
Rheology is a notoriously complex field, combining mathematics and physics to characterize materials. For inexperienced users, rheology can seem like a massive challenge. Luckily, new technology simplifies rheology down to its core so you can get essential measurements without difficult training, measurements, or calculations.
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How to Accelerate Product Development with Easy, Reliable Advanced Mechanical Testing
Mechanical testing supports material and product innovation across a variety of industries and applications, from testing the long-term durability of dental implants during chewing to predicting how a car part will bend during an accident. Learn how the latest technology advances mechanical testing to better support cutting-edge product development.
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How Sustainable Polymer Development is Supported by Dynamic Mechanical Analysis
Dynamic mechanical analysis (DMA) is a technique to measure the response of materials when they are subjected to dynamic or cyclic forces. Typically, dynamic mechanical analysis involves looking at the elastic and viscous response of the material when it is under a small oscillating load that probes the molecular structure’s response to the perturbation . Other variables, such as temperature, time and frequency may be changed as part of the testing to characterize how the material performs under different environmental conditions.
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How Rheology Helps Personal Care Products Meet Consumer Expectations
From smooth moisturizers to voluminous shampoo, the products that support everyday self-care routines are the result of the scientific interplay between deformation and flow. The personal care industry (and your morning routine) is only made possible because of rheology – the study of how a material moves (flow) or changes under varying degrees of stress (deformation).
DetailsHow Material Selection Can Make or Break Your PCB Download
eBook How Material Selection Can Make or Break Your PCB Printed circuit boards (PCBs) are the foundation for most of today’s electronic devices. Developers need to bear in mind a variety of considerations, including production standards, material impact on performance, and application conditions. This eBook examines some of the critical issues PCB developers face and…
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