|
|
Science China Technological Sciences
Volume 60, Issue 5, May 2017
ISSN: 1674-7321
COVER Of all the planets in our solar system, Mars is the most similar to Earth. For this reason, generations of people have dreamt of exploring it. Mars exploration represents the pinnacle of interplanetary space exploration and technology, and is the first target in planet exploration. Mars exploration began in the 1960s when the Soviet Union launched the first Mars probe. At present, there have been 43 missions to Mars, in which 20 of them belong to the United States. 23 of all the missions have been successful, giving a success rate of approximately 52%. Regarding technological development, Mars flyby, orbiting, landing and roving have already been realized. The first Mars exploration mission of China is scheduled to launch in 2020 with the objectives of “orbiting, landing and roving”. It will breakthrough key technologies such as Mars braking and capturing, entry, descent and landing (also known as EDL), long-term self-management, long range telecommunications and roving exploration on the Martian surface, in order to achieve orbiting and roving exploration of Mars and acquire scientific data. It will make Chinese spacecraft really into deep space, unveil the mysterious Mars.
Review
Mission overview and key technologies of the first Mars probe of China
YE PeiJian, SUN ZeZhou, RAO Wei & MENG LinZhi
Sci China Tech Sci, 2017, 60(5): 649‒657
An overview of the mission and technical characteristics of Change’4 Lunar Probe
YE PeiJian, SUN ZeZhou, ZHANG He & LI Fei
Sci China Tech Sci, 2017, 60(5): 658‒667
Article
Thermal performances of non-equidistant helical-coil phase change accumulator for latent heat storage
ZHANG GaoWei, HU Peng & LIU MingHou
Sci China Tech Sci, 2017, 60(5): 668‒677
Experimental investigation of flame propagation characteristics in the in-line crimped-ribbon flame arrester
SUN ShaoChen, DING ChunHui, HU XiYu, LIU Gang, YE Chen & BI MingShu
Sci China Tech Sci, 2017, 60(5): 678‒691
Analyses of thermodynamic performance for the endoreversible Otto cycle with the concepts of entropy generation and entransy
WU YanQiu
Sci China Tech Sci, 2017, 60(5): 692‒700
Method to avoid the structural interference of the thrust system of a shield tunneling machine
WANG LinTao, SUN Wei, GONG GuoFang & YANG HuaYong
Sci China Tech Sci, 2017, 60(5): 701‒712
Modeling and optimal energy management of a power split hybrid electric vehicle
SHI DeHua, WANG ShaoHua, Pierluigi Pisu, CHEN Long, WANG RuoChen & WANG RenGuang
Sci China Tech Sci, 2017, 60(5): 713‒725
A hybrid multiple damages detection method for plate structures
JIANG YongYing, XIANG JiaWei, LI Bing, CHEN XueFeng & LIN LiQu
Sci China Tech Sci, 2017, 60(5): 726‒736
MPC-based energy management with adaptive Markov-chain prediction for a dual-mode hybrid electric vehicle
XIANG ChangLe, DING Feng, WANG WeiDa, HEWei & QI YunLong
Sci China Tech Sci, 2017, 60(5): 737‒748
Ternary Fe3O4@PANI@Au nanocomposites as a magnetic catalyst for degradation of organic dyes
ZHU YuMei, ZHOU XiaoWei, CHEN DongSheng, LI Fang, XUE Tao & Ahmed Saad FARAG
Sci China Tech Sci, 2017, 60(5): 749‒757
Bioinspired robust nanocomposites of cooper ions and hydroxypropyl cellulose synergistic toughening graphene oxide
ZHANG Qi, WAN SiJie, JIANG Lei & CHENG QunFeng
Sci China Tech Sci, 2017, 60(5): 758‒764
Improvement of contact calculation in spherical discontinuous deformation analysis
WANG Long, JIAO YuYong, HUANG GangHai, ZHENG Fei, ZHAO ZhiYe & TAN Fei
Sci China Tech Sci, 2017, 60(5): 765‒771
Theoretical model for the improved PCC pile using expansive concrete
ZHOU Hang, HUA JianMin, DING XuanMing & CHU Jian
Sci China Tech Sci, 2017, 60(5): 772‒791
High-frequency vibration analysis of thin plate based on wavelet-based FEM using B-spline wavelet on interval
GENG Jia, ZHANG XingWu, CHEN XueFeng & XUE XiaoFeng
Sci China Tech Sci, 2017, 60(5): 792‒806
访问《中国科学:技术科学》官方网站(tech.scichina.com),可免费下载阅读全文。
欢迎关注《中国科学:技术科学》微信公众号,请长按识别二维码。 |
|
发表于 2017-8-13 10:34:08
收藏