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| On Demand Webinar | Application of Quantitative Analysis to Predict Absolute Concentration Information in Real-time Relative concentration is sufficient for reaction progression information such as initiation, intermediate formation and endpoint. However, the ability to predict absolute concentration in real-time is sometimes desired or essential, especially during production monitoring, and for monitoring and controlling continuous processes. Part IV discusses the application of quantitative analysis using real-time in situ FTIR focusing on strategies that produce the best quantitative results for the desired outcome. Software tools for quantitative method evaluation will also be covered. This is Part IV of the webinar series - Introduction to Real-time In Situ FTIR for Rapid Reaction Progression Determination and Reaction Characterization. |
| On Demand Webinar | Introduction to Reaction Analysis Using Real-Time In Situ FTIR This webinar introduces the use of Fourier Transform Infrared Spectroscopy (FTIR) for reaction analysis and monitoring, and includes a comparison to other well known spectroscopic techniques. The method of measurement and probe and sensor options available will be discussed as well as best practices on how to collect high quality data that will facilitate easy interpretation. |
| On Demand Webinar | Intelligent Sensor Management in Chemical Industries It is estimated that approximately 25% of the maintenance budget in process industries is absorbed by field instrumentation. Depending on their service, in-line pH measurements can burden engineers with a very high maintenance demand; not only with the frequent replacement of electrodes but also their cleaning and calibration which can take up to an hour per installation. With the revolutionary Intelligent Sensor Management (ISM) platform, METTLER TOLEDO has launched a breakthrough in pH measurement and maintenance. |
| On Demand Webinar | Rapid Optimization and Control of Solids Flocculation Flocculation is a common separation technique in the biotechnology, mining, petroleum, and pulp and paper industries. Flocculation is a process where fine suspended particles aggregate to form larger flocs which improve solids separation from the liquid phase. Performance of flocculating agents such as polymers and chemicals depends on the incoming particle size distribution, solids concentration, mixing efficiency, additive type and dosage. Flocculation effectiveness influences downstream separation, settling, flotation, and purification |
| On Demand Webinar | Building an Effective Metal Contamination Detection Programme In today’s increasingly competitive marketplace, consumers point to safety as their number one food supply concern and the need to operate an effective metal detection program has never been more essential. |
| On Demand Webinar | Effective Metal Detector Testing for Conveyorised Solutions METTLER TOLEDO offers a wide range of products and services designed to support food manufacturers in ensuring compliance with regulatory standards, realising production goals, and enhancing operating profits. |
| On Demand Webinar | Productivity Gain through titration automation However your titration tasks are executed at the moment there is always room for improvement. Automation of different steps involved in a titrimetric analysis not only saves time and money, but also makes the analysis operator-independent and significantly enhances accuracy and precision. |
| On Demand Webinar | Using Weight Measurement to Improve Your Product and Processes This webinar discusses the factors which contribute to the overall variation in an operation process, a product and the variation in the measurement itself. It focuses on how you can use the tools you have at hand to reduce your cost, and improve your product at the same time. It gives advice on methods to reduce giveaway, prevent faulty product from being shipped, or making sure the product count is correct. |
| On Demand Webinar | POWERCELL PDX: The Latest in Vehicle Weighing Technology Learn more about the revolutionary POWERCELL PDX load cell, unsurpassed in reliability and accuracy. |
| On Demand Webinar | Webinar for Engineering and Service, how to build Tank/Hopper and Vessel Weighing Systems The planning and installation of tank, silo and vessel weighing systems are critical phases in achieving the required accuracy level in your process. This webinar covers the fundamentals of building the above mentioned weighing systems and addresses engineers, designers and service people. |
| On Demand Webinar | Best Practice in Piece Counting The concept of piece counting with a scale is quite simple; counting accurately and efficiently is the challenge. In this webinar we will cover the fundamental principle of piece counting and the challenges associated with it. You will learn from best practice examples, how weighing solutions will help you to efficiently complete your counting task. |
| On Demand Webinar | Calibration in Thermal Analysis You expect that your thermal analysis instrument is always accurate, true and precise and delivers reproducible results within a given range. A calibration determines whether your module is delivering correctly measured values or needs an adjustment. In Thermal Analysis, different parameters must be calibrated (e.g. temperature, heat flow, mass, length, modulus). In this Webinar, we will discuss the basics of calibration and adjustment and give some useful tips and hints. |
| On Demand Webinar | Flash DSC 1 Flash DSC is a novel technique, a quantum leap in DSC technology that opens up new frontiers. The Flash DSC 1 revolutionizes rapid-scanning DSC thanks to its ultra-high heating and cooling rates. The state-of-the-art instrument can easily analyze reorganization and crystallization processes which were previously difficult or impossible to measure. The Flash DSC 1 is the ideal complement to conventional DSC for characterizing modern materials and optimizing production processes by thermal analysis. In this Webinar, we will discuss the basic principles of the Flash DSC 1 and present some interesting applications. |
| On Demand Webinar | Thermal Optical Methods This Webinar covers three optical methods that are used in combination with DSC:
More information about Thermal Analysis instruments and software can be found at www.mt.com/ta. |
| On Demand Webinar | TGA-Sorption Measurements under conditions of controlled relative humidity provide information that is crucial for understanding the effects that moisture content can have on the properties of a wide range of materials. TGA-Sorption analysis gives answers regarding
In this Webinar, we will discuss the basic principles of the TGA-Sorption System and present some interesting applications. |
| On Demand Webinar | Thermomechanical Analysis (TMA) Thermomechanical analysis (TMA) is used to measure the dimensional changes of a material as a function of temperature. It is one of the most important thermal analysis techniques, complementary to the well-established DSC, TGA and DMA techniques. TMA allows you to determine expansion coefficients and softening temperatures. It can measure relaxation effects that are often not detected by DSC. In this Webinar, we will discuss the basic principles of TMA and present some interesting applications. |
| On Demand Webinar | Specific Heat Capacity Determination The specific heat capacity (cp) is an important, temperature-dependent material property and is often specified in material data sheets. It can be conveniently and reliably measured by DSC. The specific heat capacity is a key property for improving technical processes such as injection molding, spray drying or crystallization as well as for the safety analysis of chemical processes and the design of chemical reactors. In this Webinar, we will discuss six different methods for determining the specific heat capacity and present some interesting applications. |
| On Demand Webinar | Thermal Analysis of Thermoplastics Thermoplastic materials are widely used in many industries because of their unique properties, low weight, attractive price, and recycling possibilities. The four main techniques of thermal analysis, DSC, TGA, TMA, and DMA are ideal for characterizing such materials. The most important advantage is that properties can be measured as function of temperature or time over a wide temperature range, from –150 to 1600 °C. In this Webinar, we will show how thermal analysis is used to analyze thermoplastic materials and will present some typical examples of samples measured by DSC, TGA, TMA, or DMA. |
| On Demand Webinar | High-pressure DSC Increased pressure influences all physical changes and chemical reactions in which a change in volume occurs. For material testing, process development, and quality control there is often no alternative to DSC measurements under pressure. High-pressure DSC allows you to measure samples under defined atmospheres at up to 10 MPa as a function of temperature or time. Higher temperature and pressure accelerates reactions and shortens the analysis time. In this Webinar, we will discuss the basic principles of high-pressure DSC and present some interesting applications. |
| On Demand Webinar | Thermogravimetric Analysis (TGA) Thermogravimetric analysis (TGA) is widely used together with DSC, TMA, and DMA. TGA measures the mass of a sample while the sample is heated or cooled in a defined atmosphere. The main use of TGA is to characterize materials with regard to their composition. A TGA/DSC instrument even allows you measure thermal events that do not produce a mass change such as melting, glass transitions, or other solid-solid transitions. In this Webinar, we will discuss the basic principles of TGA/DSC and present some interesting applications. |
| On Demand Webinar | GTP® Sensor Use and Maintenance At the heart of every good automated titration is a sensor. It is crucial to understand how your sensor is properly used, maintained and evaluated for accurate and repeatable titrations. The Good Titration Practice™ Sensor Use and Maintenance Instructional Webinar details the components, types, proper use, maintenance and evaluation of a variety of titration sensors. Through slides, animations and video, you will be instructed on what operating and maintenance procedures are best suited for your sensor in your laboratory ensuring safe, secure and reliable titrations. |
| On Demand Webinar | Differential scanning calorimetry (DSC) Differential scanning calorimetry (DSC) is the most frequently used thermal analysis technique alongside TGA, TMA and DMA. DSC is used to measure enthalpy changes due to changes in the physical and chemical properties of a material as a function of temperature or time. The method allows you to identify and characterize materials. Differential scanning calorimetry is fast, very sensitive and easy to use. In this Webinar, we will discuss the basic principles of DSC and present some interesting applications. |
| On Demand Webinar | Understanding Truck Scale Accuracy Many companies assume that the weighing results from their weighbridge are always accurate. This is especially true when the scale has been checked and approved by a government metrology agency. However, regulations do allow some amount of error even in legal-for-trade applications. This short webinar explains how accuracy can vary and what it means to your business. |
| May 29, 2013 | Validation in Thermal Analysis In analytical laboratories, most analyses are nowadays performed using computerized measurement systems. A validation process can be used to demonstrate fitness for purpose of the system before starting the experiments. The seminar presents the basic concepts step by step. The focus is on in-house method validation. The nine validation steps are described in detail using suitable examples. In this Webinar, we will discuss the basic principles of validation, from equipment qualification and computerized system validation through to analytical method validation. |