Application Case

1.Introduction When studying the structural changes of the microfiber-matrix complex of keratin samples, DSC can be used to analyze the changes in thermal stability, phase transition behavior, and possible melting or decomposition processes of keratin before and after heat treatment. For example, the DSC curve can be used to observe the endothermic or exothermic peaks […]

The performance and stability of chemicals are crucial to their application. Differential Scanning Calorimetry (DSC), as a thermal analysis technique, can provide information on heat flow changes during heating or cooling of a substance, thereby helping researchers understand the thermal properties of the substance, such as melting point, crystallinity, glass transition temperature, thermal stability, etc.

The thermal conductivity test of metals is an important technology in materials science. It is crucial for companies to evaluate the thermal conductivity of materials and optimize their use in products. The measurement of thermal conductivity of metals has broad application prospects in the fields of energy and construction. Thermal conductivity refers to the amount

Rubber is a material that is currently widely used in all walks of life. Rubber has excellent properties such as high elasticity, viscoelasticity, cushioning and shock absorption, electrical insulation, softness and good waterproofness. It is mainly used in the automotive industry, construction industry, medical industry, electronics industry, etc. With the development of science and technology,

Curing reaction refers to the chain reaction between epoxy functional groups and hardeners at appropriate temperatures. The degree of curing is a very important parameter of thermosetting polymer materials. Curing reactions are generally exothermic reactions. The amount of heat released is related to the type of resin functionality, the number of functional groups participating in

In the field of construction, thermal insulation bricks have become an important material for building envelopes due to their excellent thermal insulation performance. Thermal conductivity, as the core parameter for measuring the performance of thermal insulation bricks, directly affects the energy consumption of buildings and the quality of indoor thermal environment. However, how to accurately

Differential Scanning Calorimetry (DSC) analyzes the phase change behavior of a material by measuring the change in heat flow when the material absorbs or releases heat during programmed temperature control. For fiber materials (such as synthetic fibers, natural fibers, or composite fibers), the melting peak temperature is an important parameter to characterize their thermal stability

Industrial analysis of coal includes the determination of moisture, ash, volatile matter and fixed carbon. Traditional methods require the use of muffle furnaces, ovens and other equipment, which are cumbersome and have large errors. Thermogravimetric analysis is a common method for evaluating the thermal stability of coal. It is widely used in coal analysis, mainly

Glass transition temperature (Tg) is an important parameter of polymer materials (such as rubber), which characterizes the temperature at which the material changes from the glassy state to the highly elastic state. This parameter directly affects the low-temperature performance, elastic modulus and application scenarios of rubber. Differential scanning calorimetry (DSC) is a technology widely used