Measuring instruments and indicators used in environments with explosion hazards must comply with extensive standards, regulations, and directives. A free on-demand webinar on standards and regulations for hazardous locations has been created to promote the safe and compliant operation of equipment.

When scaling up chemical reaction processes from lab scale to manufacturing scale, it is very useful to identify various safety-related issues in the early stages of chemical process development. By measuring reaction heat, important safety-related information can be obtained quickly, allowing for the quantification of safety-related problems and their associated risks in chemical processes. This presentation will explain reaction heat measurement and why it is a beneficial tool in the consideration of chemical processes. The topics are as follows: - Designing robust and safe processes - Scaling up reactions - Improving chemical processes based on safety-related information obtained from heat measurements

Thermal analysis methods play an important role in the analysis of materials used in the automotive industry. They are also used in quality control, defect analysis, and the development of advanced high-performance materials. In the automotive industry, it is crucial to understand the properties of materials in relation to temperature. The four main methods—DSC, TGA, TMA, and DMA—are well-suited to the analytical needs of the automotive sector. In this webinar, we will explain how thermal analysis methods are applied in the automotive industry and present representative examples of sample measurements using DSC, TGA, TMA, and DMA. Webinar topics: - Introduction - Typical questions - What is thermal analysis? - Equipment and applications - DSC - TGA - TMA - DMA - Conclusion

Flash DSC is an innovative technology of DSC that opens up unknown territories. Flash DSC 1 will revolutionize the thermal analysis industry with its ultra-fast heating and cooling capabilities. This cutting-edge thermal analysis device can analyze processes of reorganization and crystallization that were traditionally difficult or impossible. Flash DSC 1 ideally complements conventional DSC when evaluating the properties of modern materials and optimizing production processes. In this webinar, we will introduce the basic principles of Flash DSC 1 and some interesting applications. Content of this webinar: - Technical introduction to Flash DSC 1 - Metastable structures - Reorganization processes - Application fields of Flash DSC - Examples of applications

Pipetting in micro-liter and milliliter measurements (that is, the task of measuring and transferring) is the most frequently performed task in laboratories conducting scientific experiments. To ensure the success of laboratory operations, it is absolutely essential to perform this pipetting quickly and accurately. This on-demand webinar provides detailed knowledge about pipetting. After explaining the appropriate pipetting techniques, we will introduce methods to prevent common mistakes and enhance the accuracy of results. Please use this webinar as an opportunity to refresh your understanding of the basics of pipetting. It can help reduce common errors during pipetting and improve reproducibility by up to 5%. This webinar will provide an overview and advice on the following topics: - Basic techniques to minimize errors - Specifications of pipettes - Pipetting cycles - Effects of aspiration speed & dispensing techniques - Air displacement vs. positive displacement - Pipetting guidelines for aqueous and non-aqueous samples - Reverse pipetting

Thermal analysis is widely used for the investigation of pharmaceuticals. Measurements of polymorphism, pseudopolymorphism, phase diagrams, stability, and purity can all be assessed through thermal analysis. The four main techniques of thermal analysis—DSC, TGA, TMA, and DMA—are ideal for evaluating the properties of such substances. A significant advantage is the ability to measure the properties of materials as a function of temperature or time over a wide temperature range of -150 to 1600 °C. Webinar topics: - Introduction - Relevant phenomena and properties - Instruments and applications – Differential Scanning Calorimetry (DSC) – Thermogravimetric Analysis (TGA) – Thermomechanical Analysis (TMA) – Dynamic Mechanical Analysis (DMA) - Conclusion

We will introduce how to prepare for regulatory compliance, proper equipment management based on scientific evidence such as minimum weighing values, measurement uncertainty, and risk assessment. You will be able to confirm methods that can significantly reduce costs. 【Course Content】 - Details of the new requirements outlined in USP General Chapter 41 regarding "balances" - Regular inspection of balances used in quantitative analysis, future pass criteria, and two other methods for evaluating and calculating the minimum weighing value of balances - Daily inspections of balances conducted using a risk-based approach as recommended in USP General Chapter 1251 regarding "weighing of analytical balances" - Proper selection of weights used in daily inspections of balances - Confirmation that the revised General Information 1251 does not mention inspections using external weights conducted daily.