固体火箭技术
固體火箭技術
고체화전기술
JOURNAL OF SOLID ROCKET TECHNOLOGY
2014年
6期
838-842
,共5页
张旭东%董可海%曲凯%王玉峰
張旭東%董可海%麯凱%王玉峰
장욱동%동가해%곡개%왕옥봉
丁羟推进剂%相对湿度%温度%吸湿%扩散系数
丁羥推進劑%相對濕度%溫度%吸濕%擴散繫數
정간추진제%상대습도%온도%흡습%확산계수
HTPB propellant%relative humidity%temperature%moisture absorption%coefficient of diffusion
以丁羟推进剂为研究对象,进行了10、30、50℃3种温度多种相对湿度条件下的吸湿试验;采取吸湿率、平衡含湿率作为表征参数,研究了丁羟推进剂吸湿的规律。结果表明,吸湿初期吸湿率随吸湿时间增加而增大,推进剂试样的吸湿在一段时间后可达到平衡,平衡含湿率主要取决于环境相对湿度,受温度的影响较小;通过对吸湿试验所得数据的分析,得到了丁羟推进剂吸湿时的温度和相对湿度条件对其扩散系数的影响规律,给出了扩散系数的温湿度修正模型,用该模型表示扩散系数与温度和相对湿度的关系时,最大相对误差仅为7.11%。
以丁羥推進劑為研究對象,進行瞭10、30、50℃3種溫度多種相對濕度條件下的吸濕試驗;採取吸濕率、平衡含濕率作為錶徵參數,研究瞭丁羥推進劑吸濕的規律。結果錶明,吸濕初期吸濕率隨吸濕時間增加而增大,推進劑試樣的吸濕在一段時間後可達到平衡,平衡含濕率主要取決于環境相對濕度,受溫度的影響較小;通過對吸濕試驗所得數據的分析,得到瞭丁羥推進劑吸濕時的溫度和相對濕度條件對其擴散繫數的影響規律,給齣瞭擴散繫數的溫濕度脩正模型,用該模型錶示擴散繫數與溫度和相對濕度的關繫時,最大相對誤差僅為7.11%。
이정간추진제위연구대상,진행료10、30、50℃3충온도다충상대습도조건하적흡습시험;채취흡습솔、평형함습솔작위표정삼수,연구료정간추진제흡습적규률。결과표명,흡습초기흡습솔수흡습시간증가이증대,추진제시양적흡습재일단시간후가체도평형,평형함습솔주요취결우배경상대습도,수온도적영향교소;통과대흡습시험소득수거적분석,득도료정간추진제흡습시적온도화상대습도조건대기확산계수적영향규률,급출료확산계수적온습도수정모형,용해모형표시확산계수여온도화상대습도적관계시,최대상대오차부위7.11%。
Taking HTPB propellant as the object of study,some tests were performed about moisture absorption at 10,30,50℃and many relative humidity conditions.Using moisture absorption percentage and balance moisture absorption percentage as charac?terization parameters,the moisture absorption law of HTPB propellant was studied. The results show that the moisture absorption per?centage is increasing with the moisture absorption time during the beginning of the moisture absorption. The moisture absorption of propellant samples can achieve balance after a period of time.The balance moisture absorption percentage mainly depends on relative humidity and less depends on the temperature.The influence of temperature and relative humidity conditions on the diffusion coeffi?cient was found out through the analysis of moisture absorption test data from the HTPB propellant moisture absorption.The improved model to describe coefficient of diffusion was given out. The biggest relative error is 7. 11% when using the improved model to de?scribe the relation between the coefficient of diffusion with relative humidity and temperature.