刘鹏安,张怀智,黄鹏波,金昌根,谢全民.弹药表面喷砂除锈理论与试验研究[J].表面技术,2015,44(2):129-133.
LIU Peng-an,ZHANG Huai-zhi,HUANG Peng-bo,JIN Chang-gen,XIE Quan-min.Theoretical and Experimental Research on Sand-blasting for Rust Removal from Ammunition Surface[J].Surface Technology,2015,44(2):129-133
弹药表面喷砂除锈理论与试验研究
Theoretical and Experimental Research on Sand-blasting for Rust Removal from Ammunition Surface
投稿时间:2015-01-02  修订日期:2015-02-20
DOI:10.16490/j.cnki.issn.1001-3660.2015.02.025
中文关键词:  喷砂  含能材料  弹药除锈
英文关键词:sand-blasting  energetic materials  ammunition rust removal
基金项目:
作者单位
刘鹏安 武汉军械士官学校, 武汉 430075 
张怀智 武汉军械士官学校, 武汉 430075 
黄鹏波 武汉军械士官学校, 武汉 430075 
金昌根 武汉军械士官学校, 武汉 430075 
谢全民 武汉军械士官学校, 武汉 430075 
AuthorInstitution
LIU Peng-an Wuhan Ordnance Petty Officer School, Wuhan 430075, China 
ZHANG Huai-zhi Wuhan Ordnance Petty Officer School, Wuhan 430075, China 
HUANG Peng-bo Wuhan Ordnance Petty Officer School, Wuhan 430075, China 
JIN Chang-gen Wuhan Ordnance Petty Officer School, Wuhan 430075, China 
XIE Quan-min Wuhan Ordnance Petty Officer School, Wuhan 430075, China 
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中文摘要:
      目的 进一步推进我军弹药维修工作,完善弹药表面除锈工艺。 方法 综合分析多种除锈方法,确定弹药表面除锈新作业方式,确定弹药表面喷砂除锈应使用的磨料类型和喷枪倾角,以 85 加弹丸除锈为例,对喷砂除锈时弹药基体温度进行理论计算和试验测量,对比分析内装含能材料的热感度确定安全性。 结果 温度最大理论升值为 6. 35 ℃ ,试验测量平均值为 3. 72 ℃ ,远低于内装含能材料热感度。结论 利用喷砂技术进行弹药表面除锈可确保作业安全,有效提高作业效率。
英文摘要:
      Objective To further promote ammunition repairing in Chinese army, and to improve the technique of rust removal from ammunition surface. Methods Several rust removal methods were comprehensively analyzed, the new operation method using sand-blasting for rust removal from ammunition surface was proposed. The abrasive type and the obliquity of spray gun for rust removal from ammunition surface by sand-blasting were determined. Using the rust removal of 85 plus projectile as an example, theoretical calculation and experimental measurement were conducted for the ammunition substrate temperature during rust removal by sand-blasting, and the safety was assured by comparative analysis of the thermal sensitivity of the energetic materials. Results The maximum theoretical temperature increase was 6. 35 ℃ and the average experimental measurement was 3. 72 ℃, which was far lower than the thermal sensitivity of the energetic materials. Conclusion Rust removal from ammunition surface using the sand-blasting technology could ensure the operation safety and effectively improve the operation efficiency.
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