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Portable in-situ multi-field coupling loading device for neutron scattering

A loading device, neutron scattering technology, applied in material analysis using radiation diffraction, material analysis using wave/particle radiation, measuring device, etc. problem, to achieve the effect of compact structure

Active Publication Date: 2018-08-28
INST OF HIGH ENERGY PHYSICS CHINESE ACAD OF SCI +1
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

Although there are temperature-magnetic field loading devices that combine cryogenic chambers with superconducting magnets, they generally cannot be used with stress loading devices due to their internal space constraints
Moreover, the related devices are bulky, difficult to disassemble and transport, and cannot be used universally on neutron scattering spectrometers of different neutron sources
Other large-scale devices are generally difficult to cooperate with, so they cannot meet the needs of some complex use environments that require multi-field coupling loading in the in-situ neutron scattering experiment to simulate the actual service process of magnetic materials

Method used

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  • Portable in-situ multi-field coupling loading device for neutron scattering
  • Portable in-situ multi-field coupling loading device for neutron scattering
  • Portable in-situ multi-field coupling loading device for neutron scattering

Examples

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Embodiment

[0039] This example is a portable in-situ multi-field coupling loading device for neutron scattering, including a stress loading and testing component 1, a temperature loading component 2 and a magnetic field loading component 3.

[0040] Such as Figure 1 to Figure 3 As shown, the stress loading and testing assembly 1 includes two parallel guide rod groups 11, each guide rod group includes two guide rods, a total of four guide rods, and the four guide rods are used to support the stress loading and testing assembly 1 respectively. The four corners of the components play a supporting role; on the two parallel guide rod groups 11, the first fixed plate 12, the force sensor 13, the left clamp 14, and the right clamp corresponding to the left clamp 14 are sequentially installed Fixture 15, spring movable plate 16, spring group 17, second fixed plate 18 and stress loader 19; Wherein, first fixed plate 12, force sensor 13 and second fixed plate 18 are fixedly installed on the guide...

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Abstract

The invention discloses a portable in-situ multi-field coupling loading device for neutron scattering. The device comprises a stress loading and testing assembly, a temperature loading assembly and amagnetic field loading assembly, wherein the stress loading and testing assembly comprises four parallel guide rods for supporting; a first fixing plate, a force sensor, a left clamp, a right clamp, aspring moving plate, a spring set, a second fixing plate and a stress loader are sequentially mounted on each guide rod from left to right; the temperature loading assembly comprises a left heating ring and a right heating ring which are correspondingly arranged on clamp heads of the left clamp and the right clamp; the magnetic field loading assembly comprises a support which his provided with two vertical arms, and the two vertical arms are correspondingly arranged at the front and back of a guide rod set. According to the device, the stress, temperature and magnetic field multi-field coupling loading is developed and achieved for the first time, and a foundation is provided to multi-site in-situ research of magnetic material type magnetic structures in evolving micromechanisms; and thedevice is applicable to different neutron source neutron scattering spectrometers.

Description

technical field [0001] The present application relates to the field of sample detection auxiliary equipment in neutron scattering applications, in particular to a portable in-situ multi-field coupling loading device for neutron scattering. Background technique [0002] Neutrons have magnetic moments and can interact with the magnetic moments of magnetic atoms. Therefore, neutron scattering is an excellent tool for probing the microscopic magnetic domains and magnetic structures of materials, and studying the origin of magnetic properties and structures. However, the magnetic domains and magnetic structure of a material change according to the temperature, magnetic field and stress state it is exposed to. Especially for ferromagnetic smart alloys used as smart devices such as actuators and sensors, in order to achieve cyclic driving and repeated response, multi-field coupling loading is required for such materials. In order to study the microscopic mechanism of the magnetic...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N23/20G01N23/20025G01N23/20033G01N23/2005
CPCG01N23/20G01N23/20025G01N23/20033G01N23/2005
Inventor 柯于斌郑海彪王循理兰司王芳卫
Owner INST OF HIGH ENERGY PHYSICS CHINESE ACAD OF SCI
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