电热炮

电热炮原理性实验研究

An experimental study of the princple for the electrothermal gun

分级供电电热炮系统的数学模型与模拟计算

The Mathematical Model and Simulation for Electrothermal Gun Supplied by a Staged Power

在讨论了爆轰驱动快速激波管发射技术的理论极限与电热炮的一些局限性后，提出了一种由2种发射技术混合而成的新型化学电热发射技术&FST纯电热耦合发射技术新概念。

The theoretical limits of the FST launch technology and electrothermal gun are simply discussed , and a novel concept of FST electrothermal launch technology which consists of the FST launch technology and electrothermal launch technology is presented .

本文介绍了电热化学炮VXI测控系统的集成技术。

This paper presents a way of software integration of VXI measure control system .

脉冲功率源系统的体积、重量、可移动性及可靠性对于应用于靶场实验的电热化学炮（ETCG）来说是重要的。

The size , weight , mobility and reliability of electrical power system are important for electrothermal chemical ( ETC ) guns in combat vehicles .

该文建立了固体工质电热化学炮（SPETCG）内弹道一维两相流模型。

The one dimensional two phase flow model of solid propellant electrothermal chemical gun ( SPETCG ) is established in the paper .

总结了常规火炮点火的现状，分析了固体药电热化学炮（SPETC）点火的潜在优势，并对等离子体点火过程中存在的燃速增强机理进行了讨论。

In the solid propellant electrothermal chemical ( SPETC ) propulsion concept , it has been proved that plasma can be successfully used to optimize and control the propellant ignition process .

液体工质电热化学炮的两维多相流模型研究

Two dimensional multi plase flow modeling for liquid propellant electrothermal chemical gun

电热化学炮等离子体增强燃烧过程研究

Study of plasma enhanced burning process in electrothermal chemical launcher

电热化学炮脉冲形成网络分析及其参数设计

Analysis and parameters design of a pulse forming network

电热化学炮用脉冲电源及等离子体发生器电特性的研究

Study of Pulsed Power for Electrothermal-Chemical Launcher and Electrical Characteristic of Plasma Generator electrothermal gun

揭示了电热化学炮所用的等离子体发生器初始放电参数对推进剂燃烧特性的影响规律。

The influences of discharge parameters of plasma generator on the combustion behavior of propellant were theoretically and experimentally studied .

计算结果为固体工质电热化学炮的弹道设计提供了理论依据。

Calculated results provide a theoretical basis for the ballistic design of solid propellant electrothermal chemical ( ETC ) gun .

液体工质电热化学炮内弹道过程的本质是高速等离子体射流与推进剂工质的相互作用并推动弹丸运动的过程。

The nature of interior ballistics process in a liquid propellant gun is the interaction between plasma injection and liquid propellant .

目的报告国内外电热化学炮技术研究的最新成果和发展动态，分析电热化学炮技术研究的热点方向。

Aim To report the technological achievements and the development of electrothermal chemical gun ( ETCG ), at the same time to analyze the popular aspects of ETCG technology .

结果表明：整装式液体工质电热化学炮内弹道过程中，燃烧室出现轴向压力振荡现象，压力振荡的出现使得膛内压力曲线呈现多峰分布。

The results show that , pressure in the combustion chamber appears to pulse in bulk-loaded liquid propellant electrothermal chemical gun and thus pressure curve of the chamber shows multimodal distribution .

2种方法均可在电热轻气炮研究的不同情况下获得应用。

These two methods can be used to meet different demands in the study of electrothermal light gas gun .

消融放电毛细管已应用在电热（ET）和电热化学（ETC）等超高速推进技术中，是电热化学炮的关键部件之一。

Discharged capillary have been applied in high speed launch technique such as electrothermal ( ET ) and electrothermal chemical ( ETC ) plasma devices .