Introduction: The dimensional change of the sample is measured as a function of temperature or time under a certain temperature program and the load force is close to zero. It can measure various samples such as solids, molten metals, powders, coatings, etc. ZRP-B thermal dilatometer studies the following properties of materials: linear expansion and contraction, glass transition temperature, densification and sintering process, heat treatment process optimization, softening point detection, phase transition process, additives and raw materials effects, reaction kinetics research. Product application: widely used in inorganic ceramics, metal materials, plastic polymers, building materials, coating materials, refractory materials, composite materials and other fields. Features: 1. Applicable to sample linear variables, linear expansion coefficient, bulk expansion coefficient, softening temperature, glass transition temperature, density change 2. The vertical structure of the instrument is particularly suitable for the measurement of ceramic samples that shrink more than expand 3. Instrument integration, automatic upgrade, strong anti-interference ability, good repeatability 4. Adopt Chinese operation interface under windows system, friendly interface, suitable for win7, win8, win10 operating system Technical parameter: Product model: ZRP-B type Temperature range: room temperature~1450℃ Thermal expansion measurement size: 4- 6×25mm square/circle can be Expansion range: 1000μm Heating rate 0.1~100℃/min Cooling rate 0.1~40℃/min Temperature Resolution 0.1℃ Dilation resolution 0.1-1um System measurement error ±0.1-0.5% Vacuum degree: 2.66×10-2Pa Furnace power: 2kW Output method: brand computer, laser printer Atmosphere control: optional vacuum system
Introduction: The dimensional change of the sample is measured as a function of temperature or time under a certain temperature program and the load force is close to zero. It can measure various samples such as solids, molten metals, powders, coatings, etc. ZRP-B thermal dilatometer studies the following properties of materials: linear expansion and contraction, glass transition temperature, densification and sintering process, heat treatment process optimization, softening point detection, phase transition process, additives and raw materials effects, reaction kinetics research. Product application: widely used in inorganic ceramics, metal materials, plastic polymers, building materials, coating materials, refractory materials, composite materials and other fields.
