Development of a portable and fast wire tension measurement system for MWPC construction

Jing-Hui Pan; Chang-Li Ma; Xue-Yu Gong; Zhi-Jia Sun; Yan-Feng Wang; Chen-Yan Yin; Lei Gong

doi:10.1088/1674-1137/40/9/096201

Chinese Physics C> 2016, Vol. 40> Issue(9) : 096201 DOI: 10.1088/1674-1137/40/9/096201

Development of a portable and fast wire tension measurement system for MWPC construction

Jing-Hui Pan ^1,2,3 ,
Chang-Li Ma ^2,3,, ,
Xue-Yu Gong ^1,, ,
Zhi-Jia Sun ^2,3,4,, ,
Yan-Feng Wang ^2,3 ,
Chen-Yan Yin ¹ ,
Lei Gong ⁵

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In a multi-wire proportional chamber detector (MWPC), the anode and signal wires must maintain suitable tension, which is very important for the detector's stable and accurate performance. As a result, wire tension control and measurement is essential in MWPC construction. A high pressure ³He MWPC detector is to be used as the thermal neutron detector of the multi-functional reflectometer at China Spallation Neutron Source, and in the construction of the detector, we have developed a wire tension measurement system. This system is accurate, portable and time-saving. With it, the wire tension on an anode wire plane has been tested. The measurement results show that the wire tension control techniques used in detector manufacture are reliable.
- MWPC ,
- wire tension ,
- tension measurement ,
- CSNS

References

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Jing-Hui Pan, Chang-Li Ma, Xue-Yu Gong, Zhi-Jia Sun, Yan-Feng Wang, Chen-Yan Yin and Lei Gong. Development of a portable and fast wire tension measurement system for MWPC construction[J]. Chinese Physics C, 2016, 40(9): 096201. doi: 10.1088/1674-1137/40/9/096201

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Received: 2016-03-11

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Supported by National Natural Science Foundation of China (A050506), State Key Laboratory of Particle Detection and Electronics and Key Laboratory of China Academy of Engineering Physics (Y490KF40HD)

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通讯作者: 陈斌, bchen63@163.com

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沈阳化工大学材料科学与工程学院沈阳 110142

Development of a portable and fast wire tension measurement system for MWPC construction

Corresponding author: Chang-Li Ma,

Corresponding author: Xue-Yu Gong,

Corresponding author: Zhi-Jia Sun,

Received Date: 2016-03-11
Available Online: 2016-09-05

Fund Project: Supported by National Natural Science Foundation of China (A050506), State Key Laboratory of Particle Detection and Electronics and Key Laboratory of China Academy of Engineering Physics (Y490KF40HD)

Abstract: In a multi-wire proportional chamber detector (MWPC), the anode and signal wires must maintain suitable tension, which is very important for the detector's stable and accurate performance. As a result, wire tension control and measurement is essential in MWPC construction. A high pressure ³He MWPC detector is to be used as the thermal neutron detector of the multi-functional reflectometer at China Spallation Neutron Source, and in the construction of the detector, we have developed a wire tension measurement system. This system is accurate, portable and time-saving. With it, the wire tension on an anode wire plane has been tested. The measurement results show that the wire tension control techniques used in detector manufacture are reliable.

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通讯作者: 陈斌, bchen63@163.com

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Development of a portable and fast wire tension measurement system for MWPC construction

Corresponding author: Chang-Li Ma,

Corresponding author: Xue-Yu Gong,

Corresponding author: Zhi-Jia Sun,

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[1]	G. Leckenby , M. Trassinelli , Rui-jiu Chen , R. S. Sidhu , J. Glorius , M. S. Sanjari , Yu. A. Litvinov , M. Bai , F. Bosch , C. Brandau , T. Dickel , I. Dillmann , D. Dmytriiev , T. Faestermann , O. Forstner , B. Franczak , H. Geissel , R. Gernhäuser , Bing-shui Gao , C. J. Griffin , A. Gumberidze , E. Haettner , R. Heß , P.-M. Hillenbrand , P. Kienle , W. Korten , Ch. Kozhuharov , N. Kuzminchuk , S. Litvinov , E. B. Menz , T. Morgenroth , C. Nociforo , F. Nolden , N. Petridis , U. Popp , S. Purushothaman , R. Reifarth , C. Scheidenberger , U. Spillmann , M. Steck , Th. Stöhlker , Y. K. Tanaka , S. Trotsenko , L. Varga , Meng Wang , H. Weick , P. J. Woods , T. Yamaguchi , Yu-hu Zhang , Jian-wei Zhao . Bayesian and Monte Carlo approaches to estimating uncertainty for the measurement of the bound-state β^- decay of ²⁰⁵Tl⁸¹⁺. Chinese Physics C, 2025, 49(11): 114001. doi: 10.1088/1674-1137/ade956
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