Equipment name: Microcomputer controlled high-temperature ceramic tensile electronic universal testing machine

Product models: CMT5504GW, CMT5105GW, CMT5205GW, CMT5305GW

Main functions of the equipment: The testing machine is equipped with a CMT series temperature controlled high-temperature testing furnace and high-temperature testing chamber. It is manufactured according to the Q/UHT-2009 "Standard Method for High Temperature, High and Low Temperature Tensile Testing" and meets the testing standards of GB/ISO/ASTM/IS/DIN/EN/FL/HB. It tests the various physical and mechanical test properties of materials under different environmental temperatures such as high temperature, high temperature, and low temperature, and can meet the testing and measurement needs of various materials. The measurement and control software can be extended according to user requirements. The Sansi high-temperature, high and low temperature testing machine is widely used in aerospace, petrochemical, mechanical manufacturing, new materials, polymer materials, adhesives, ceramic building materials, metal materials, as well as higher education institutions, research institutions, technical supervision, quality inspection stations and other departments.

Test standard method:

GB/T228.1-2010 "Tensile testing of metallic materials - Part 1: Room temperature test method"

GB/T 228.2-2015 "Tensile testing of metallic materials - Part 2: High temperature test method"

ASTME21-2009 "High temperature tensile testing method for metallic materials"

GB/T7314-2007 "Test method for room temperature compression of metallic materials"

GB/T4338-2006 "High temperature tensile testing method for metallic materials"

HB7571-1997 "High temperature compression test method for metals"

IS0783-89 "High temperature tensile testing method for metallic materials" - Requirements for testing machines in ASTM, ISO, DIN, FL and other standards

Manufacturing standard for testing machines: GB/T 16491-2022 Electronic Universal Testing Machine

Product details:

The host adopts a single space structure, and the experimental space is pulled down and pressed down, mainly composed of a base and a frame. The base is made of cast iron, and the frame is a gantry structure, mainly composed of a bottom plate, upper, middle, and lower crossbeams, and connecting light bars; The coaxiality of the testing machine is good (<8%). The upper, middle, and lower beams are made of ductile iron, with a tensile strength of 60k (600MPa) and a yield strength of 40k (400Mpa); High strength light bars are used to fix the upper crossbeam and worktable, forming a highly rigid structural framework. The corrosion resistance and oxidation prevention of ductile iron exceed that of cast steel. Due to the microstructure of nodular graphite in ductile iron, it is superior to cast steel in reducing vibration ability, making it more conducive to stress reduction. This machine has a beautiful appearance, good stability, high rigidity, high control accuracy, high work efficiency, low noise, and is energy-saving and environmentally friendly.

This series of models has multiple optional model structures, including space models, pull-up and pull-down dual space models, and pull-up and pull-down dual space models. It can be equipped with environmental boxes and high-temperature furnaces for environmental testing. The equipment works stably for a long time under conditions of 1200 ℃, 1400 ℃, and 1500 ℃, and has excellent vacuum sealing performance; The argon filling process is stable; Equipped with overload protection, limit protection, overcurrent, overvoltage, under pressure, over temperature protection and other protective functions; Equipped with interlocking protection functions such as under water pressure, over temperature, over pressure, and under air pressure;