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| Wed Mar 24 2010 08:00 GMT | Temperature Modulated DSC Techniques (TMDSC)
Temperature-modulated DSC techniques (TMDSC) are widely used in thermal analysis in industrial and university research laboratories to separate overlapping temperature-dependent and time-dependent thermal effects. Methods used up until now have overlaid the isothermal temperature or heating ramp with a (usually) sinusoidal temperature modulation of just one frequency (single frequency method). In contrast,TOPEM® , the new advanced multi-frequency temperature-modulation technique, uses a large number of different frequencies (multi-frequency approach). The basic idea of TOPEM®is to overlay the isothermal or ramped temperature with a time series of stochastic (random) temperature pulses of different duration.
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| Wed Mar 24 2010 08:00 GMT | Controlling Crystallization Scale-up in the Chemical Industry – Ensuring Success from Lab to Manufacturing
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| Wed Apr 14 2010 08:00 GMT | Enhanced Micro Reactor Process Development Using Real-time In Situ FTIR (fourier transform infrared spectroscopy) Analytics
The field of continuous flow chemistry using micro reactor technology is rapidly evolving. Real-time in situ mid-IR analytics is playing an important role allowing chemists and engineers to have direct feedback to any changes in the continuous flow system enabling the instantaneous measurement of the effects of parameter changes on performance.
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| Wed Apr 14 2010 13:00 GMT | The Application of the ReactIR™ Flow Cell to Continuous Processing Technology
Due to the popularity of this online seminar, we are pleased to offer another opportunity to participate in this presentation.
The ReactIR™ flow cell, developed by METTLER TOLDO, is presented as a convenient inline analytical tool for continuous flow chemistry processing. The flow cell, operated with ATR technology, is attached inline using standard Omnifit® connections. With the established iC IR 4.0 software the consumption of reagents and formation of products can be monitored in real-time, allowing for rapid optimization. Unstable reactive intermediates can also be observed in situ, giving mechanistic insight to complex transformations.
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| Thu Apr 15 2010 08:00 GMT | Hazardous Area Weighing - Advanced
METTER TOLEDO invites you to register for our free advanced webinar on hazardous area weighing.
This webinar was created to build on the success of the webinar “Hazardous areas the basics” held throughout 2009. |
| Tue Apr 20 2010 07:00 GMT | Good Weighing Practice™ (GWP®) - The Global Weighing Guideline - Part 1: Measurement Uncertainty and Minimum Weight
Throughout the industry there are common misconceptions regarding balance selection and use as well as incorrect testing programs for periodic verification of the balance's performance. Driven by scientific principles, METTLER TOLEDO developed a risk-based management program taking care about the whole life cycle of the balance, Good Weighing Practice™ (GWP®), in order to provide sound answers to the user's concerns for establishing and maintaining a sustainable quality of weighing processes.
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| Wed Apr 21 2010 07:00 GMT | Kinetics
Reaction kinetics is the study of the rates at which chemical reactions proceed. The method investigates the effect of temperature, catalysts, and other factors on chemical reactions and yields information about reaction mechanisms.
A good understanding of kinetics is very important, for example in the chemical industry for process development and safety investigations as well as in the polymer industry for understanding the curing behavior of thermosets. In this Webinar, we will discuss the basic principles of kinetics and present some interesting applications. |
| Thu Apr 22 2010 07:00 GMT | Good Weighing Practice™ (GWP®) - The Global Weighing Guideline - Part 2: Routine Testing of Weighing Systems
Throughout the industry there are common misconceptions regarding balance selection and use as well as incorrect testing programs for periodic verification of the balance's performance. Driven by scientific principles, METTLER TOLEDO developed a risk-based management program taking care about the whole life cycle of the balance, Good Weighing Practice™ (GWP®), in order to provide sound answers to the user's concerns for establishing and maintaining a sustainable quality of weighing processes.
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| Wed Apr 28 2010 13:00 GMT | Reaction Progress Kinetic Analysis: A Powerful Methodology for Streamlining the Study of Complex Organic Reactions
During this free webinar, Donna Blackmond will discuss how the Reaction Progress Kinetic Analysis (RPKA) methodology simplifies kinetic studies of organic reactions.
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| Wed May 05 2010 09:00 GMT | Fast and Effective Chemical Synthesis and Optimization Supported by Design of Experiments (DoE) - LONZA Peptide
Peptide Synthesis is naturally subject to a wide range of influences, such as reaction temperature, solvent, catalyst, as well as concentrations of the substrate and reagent. As a result, the target output variables such as the product composition, purity, yield or stereospecificity may vary in wide range.
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| Thu May 06 2010 08:00 GMT | リーン生産方式を実現する計量ソリューションの導入
リーン生産方式は、最終顧客に価値をもたらすこと以外への時間と経費の使用をムダと考える生産方法のことで、そうしたムダを削減することを目的としています。
本ウェビナーでは、リーン生産方式の概要を説明し、計量ソリューションが生産プロセスの継続的向上にどのように貢献するかを紹介します。ムダの削減に関する専門家の講義や、ベストプラクティス例について学ぶことができます。
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| Thu May 06 2010 10:00 GMT | Kinetics
Reaction kinetics is the study of the rates at which chemical reactions proceed. The method investigates the effect of temperature, catalysts, and other factors on chemical reactions and yields information about reaction mechanisms.
A good understanding of kinetics is very important, for example in the chemical industry for process development and safety investigations as well as in the polymer industry for understanding the curing behavior of thermosets. In this Webinar, we will discuss the basic principles of kinetics and present some interesting applications. |
| Wed May 12 2010 13:00 GMT | Faster, Better Organic Chemistry Through the Use of Real-Time In Situ FTIR Technology & Software Optimized for the Organic Chemist
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| Thu May 13 2010 08:00 GMT | Faster, Better Organic Chemistry Through the Use of Real-Time In Situ FTIR Technology & Software Optimized for the Organic Chemist
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| Wed Jun 09 2010 07:00 GMT | Dynamical Mechanical Analysis (DMA)
Dynamic mechanical analysis (DMA) is used to measure the mechanical properties of viscoelastic materials as a function of temperature or frequency. It is one of the most important thermal analysis techniques alongside the well-established DSC, TGA, and TMA techniques.
DMA allows you to determine modulus values and measure relaxation effects that often cannot be detected by DSC. |
| Tue Jun 29 2010 07:00 GMT | Meet Global Food Safety Standards and Increase Productivity (IFS) - English
Food safety concerns are enough to bring a company to the media's attention. The introduction of standards such as IFS, ISO 22000, BRC and SQF2000 require food companies to make their manufacturing processes transparent and as safe as possible. Learn, how METTLER TOLEDO can support you in the area of traceability, hygienically designed equipment, quality data management, foreign body detection and equipment qualification and calibration and at the same time increase your productivity.
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