High-Low Temperature In-Situ Mechanical Testing System

The FMS is used to perform high- and low-temperature microstructural observations of materials under tensile or compressive loading; it is primarily employed in research areas such as organic polymers, nanomaterials, metallic materials, and composite materials. This instrument serves as an essential tool for investigating the mechanical properties of new materials.

Technical Specifications Product Features Download Materials

Parameter type	Project	Technical Specifications
Mechanical parameters	Maximum tensile force	500N		5000N
	Test mode	Tension/Compression		Tension/Compression
	Force sensor resolution	0.1N		IN
	Force sensor error	≤0.5%
	Itinerary	40mm		70mm
	Displacement resolution	1um		10um
	Stretching speed	0.5-10mm/min
Temperature parameter	Temperature range	190 to 500°C	RT to 1000℃	RT to 1000℃
	Cooling method	Liquid nitrogen	None	None
	Maximum heating rate	50℃/min,	100℃/min	100℃/min
	Maximum cooling rate	-25℃/min	Natural cooling	Natural cooling
	Temperature control accuracy	±0.1℃	±0.1℃
	Sample stage material	Silver	Superalloy
Optical parameters	Observation window size	Φ22mm
	Observation window material	Quartz sheet, 1 mm thick
	Objective working distance	8mm	10mm
Other parameters	Vacuum level	≤1Pa
	External dimensions	110×185×40 mm (observation area thickness: 28 mm)
	Weight	3kg
Control Box Parameters	Size	300mm150mm320mm
	Power	200W	400W
	Voltage	200V/50Hz

1. Compact structure and small footprint, facilitating integration with microscopes, scanning electron microscopes, and other instruments;

2. Wide temperature range, from liquid nitrogen temperatures to as high as 1200°C;

3. Precise displacement control, with a maximum tensile force of 5,000 N, enabling a variety of mechanical tests including compression, tension, and fatigue.

4. Operated via computer software, featuring a rich interface and excellent human–machine interaction.