What's new

China Space Military:Recon, Satcom, Navi, ASAT/BMD, Orbital Vehicle, SLV, etc.

I have some questions regarding this Kuaizhou series rockets:

(1) What's the known max. weight of any single satellite that can be lifted by this rocket?

(2) What are the other international players (satellite launch service providers) in the Kuaizhou's market segment?
Does Kuaizhou face or intersect with the SpaceX's market segment?

Wondering how this low-cost launcher fares or interact with the int'l market of the satellite launch.... what's the cost pressure given by Kuaizhou to the int'l market :-)
 
China plans to launch 156 low Earth orbit satellites by 2025

By Zhang Hui Source: Global Times - 2017/8/31

Project aims to offer improved Internet access in low signal areas

A model of the Beidou Satellite Navigation System is displayed during an air and space show in Xi'an, Northwest China's Shaanxi Province, on April 24. Photo: CFP

China plans to launch 156 small satellites by 2025 to provide Internet services in low signal areas and places with adverse natural environment, according to an announcement by China Aerospace Science and Industry Corporation (CASIC).

Due to environmental conditions of deserts, mountains and seas, half of the world's population has no access to the Internet, and the information deficiency hampers local development, according to a press release CASIC sent to the Global Times Thursday.

It will be China's first broadband Internet access system with small satellites hovering in low orbit, which will also help meet the needs of commercial space development, it said.

The project, named Hongyun, plans to send the first satellite by 2018, and launch four more to gain preliminary experience by 2020. By the end of the 14th Five-Year Plan (2021-2025), CASIC plans to have all of the 156 satellites in operation.

"The satellites will also facilitate Internet access and communication for airplanes and ocean-going ships," Wang Yanan, chief editor of the Aerospace Knowledge magazine, told the Global Times.

The Hongyun Project, which focuses on communication, remote sensing and navigation, can offer communication and Internet services for China and less-developed countries with reduced latency. Meanwhile, the project can also benefit emergency communication, sensor data collection and remote control of unmanned equipment, CASIC said.

Currently, international maritime satellites are widely used for communications in mountainous areas and airplanes, but those satellites, 36,000 kilometers above the Earth, have time and signal delay as well as high cost for providing services, said Yang Yuguang, a research fellow with the CASIC, according to the WeChat account of the company.

The small satellites sent by the Hongyun Project will hover in low orbits only hundreds of kilometers to 1,000 kilometers above the Earth, and thus could improve the Internet access, Yang said.

However, the low orbit satellites may face challenges in power supply, as they need more energy to reduce the influence of air-resistance compared to high orbit satellites. Experiments are needed to determine whether solar energy alone is enough, Wang said.

Hongyun Project was part of the space projects announced by CASIC at the Third China (International) Commercial Aerospace Forum in Wuhan, Central China's Hubei Province, Wednesday.

CASIC also announced at the forum that the rocket launch project called Kuaizhou 11, a solid-fuel carrier rocket. The rocket will mainly be responsible for sending mini satellites and sun-synchronous orbit small satellites.

According to China Central Television, the Kuaizhou 11 will have its maiden launch carrying six satellites in early 2018.


Newspaper headline: 156 small satellites to be launched by 2025

http://www.globaltimes.cn/content/1064172.shtml
 
China's ABM/ASAT particle accelerator capability


When most nations begin to focus on the development of laser weapons, a high-tech weapon that is considered to replace laser weapons - particle beam weapons is about to emerge.
It is reported that there are currently three major countries, that are developing such techologies, the US, Russia and China.


2015-09-22

导读: 当大多数人开始关注激光武器的发展的时候,一种被认为取代激光武器的高科技武器--粒子束武器即将出现。据悉,目前研究粒子束武器的国家仅有俄美中三大国,粒子束武器具有较大的能量,并且拥有很大的用途,那么如今粒子束武器发展的现状如何?

粒子束武器
粒子束武器是利用加速器把质子和中子等粒子加速到数万—20万km/s的高速,并通过电极或磁集束形成非常细的粒子束流发射出去,用于轰击目标。按粒子是否带电可分为带电粒子束武器和中性粒子束武器。粒子束武器在太空可以破坏数十公里以外的目标;但在大气中威力衰减,只能攻击数公里以外的目标。

21世纪,武器的发展已经进入原子和分子世界,核武器就是应用了原子理论。原子物质中央的质子带正电,电子带负电,中子是中性的。被称为粒子的物质是指电子、质子、中子和其它带正、负电的离子。粒子只有被加速到光速才能作为武器使用。粒子束发射到空间,可熔化或破坏目标,而且在命中目标后,还会发生二次磁场作用,对目标进行破坏。

粒子束武器发射出高能定向强流、接近光速的亚原子束(带电粒子束和中性粒子束),以巨大的动能击毁卫星和来袭的洲际弹道导弹。即使不能直接摧毁核弹头,粒子束产生的强大电磁场脉冲热也会把导弹的电子设备烧毁,或利用目标周围发生的γ射线和X射线使目标的电子设备失效或受到破坏。带电粒子束武器通常在大气层内使用。中性粒子束武器在大气层外使用,主要用于拦截助推段和中段飞行的洲际弹道导弹。

粒子束武器基本原理是利用磁场将粒子加速、集束后发射, 利用粒子团高速撞击产生的能量以及二次磁场作用将目标瞬间蒸发。所谓粒子就是原子、电子、质子、中子、夸克 和其它带正、负电的离子。

粒子束武器的威力主要表现在以下几个方面:
1、飞行时间近乎光速, 任何目标一旦被击中难逃一死。
2、巨大动能和能量,可将目标迅速穿透,汽化。
3、就算只是靠近,也会破坏、干扰目标电子元件。
4、随时调整质量、弹道速度,攻击角度, 从容对付多批目标的饱和性攻击。
5、就算敌方反击,也能提前引爆 或破坏敌方弹头。

未来太空武器
当今世界,武器的发展已经进入原子和分子世界,核武器就是应用了原子理论。原子物质中央的质子带正电,电子带负电,中子是中性的。被称为粒子的物质是指电子、质子、中子和其它带正、负电的离子。
粒子束武器发射出高能定向强流、接近光速的亚原子束(带电粒子束和中性粒子束),用来击毁卫星和来袭的洲际弹道导弹。即使不直接破坏核弹头,粒子束产生的强大电磁场脉冲热,也会把导弹的电子设备烧毁,或利用目标周围发生的γ射线和X射线使目标的电子设备失效或受到破坏。带电粒子束武器在大气层内使用。中性粒子束武器在大气层外使用,主要用于拦截助推段和中段飞行的洲际弹道导弹。

粒子束的毁伤作用表现在: (1)使目标结构汽化或熔化; (2)提前引爆弹头中的引信或破坏弹头的热核材料;(3)使目标中的电子设备失效或被破坏。
粒子束既可实施直接穿透目标的“硬杀伤”,也能实施局部失效的“软杀伤”。带电粒子束对目标的穿透能力极强,能量集中,脉冲发射率高,能快速改变发射方向。中性粒子束还可对目标周围产生的中子、γ、X射线进行遥测,实现对目标的识别。

粒子束武器的发展
1975年以来,美国预警卫星多次发现大气层上有大量带有氚的气体氢,认为可能是发射带电粒子束造成的。1976年,美国预警卫星探测到前苏联在哈萨克斯坦的沙漠地带进行了产生带电粒子束的核聚变型脉冲电磁流体发动机的试验。对粒子束武器的研究,前苏联是从1974年开始的,美国是从1978年开始的,20世纪80年代中期开始在实验室进行理论验证。

20世纪70年代中期以来,前苏联在电离层和大气层外的宇宙系列卫星、载人飞船和礼炮号空间站上进行了8次带电粒子束传导方法试验;在列宁格勒地区进行过粒子束武器的地上试验,试验装置有线性电磁感应加速器、γ射线仪器、X射线仪器、磁力存储器和多频道超高压开关等,而且进行过带电粒子束对洲际弹道导弹、宇宙飞船以及固体燃料目标的照射试验。1978年,前苏联在东德制造了使用1000GeV质子加速技术的0.5MV、80J、16层7列的粒子束产生装置。

美国海军在20世纪70年代建立了开发粒子束武器的跷板计划,研究用带电粒子束拦截导弹的核弹头。美国国防部在1981年设立了定向能技术局来开发粒子束武器和激光武器,从1981财年开始实施预算额为3.15亿美元的5年开发计划。粒子束作为武器使用时必须兼备大电流和高能量以及数兆瓦的能源,它要在现有的基础上,功率增加几千倍,甚至几万倍。

粒子束击中目标后,放出电子,质子直穿而入,待能量耗尽后停止。100MeV的中性氚束对各种物质的垂直穿透深度为:固体推进剂9.5cm,铅3.3cm,铝0.8cm。
美国已确定粒子束武器的潜在用途是拦截导弹、攻击卫星以及在敌防区外实施扫雷等。截止2013年,产生粒子束的方法是利用线性电磁感应加速器,但由于加速器太笨重,无法投入战场使用。

美国在基础研究中主要是抓紧研究适于部署在地基和天基反导平台上的小型、高效加速器及其技术。美国利用线性电磁感应加速器产生粒子束,通过同一加速器,连续再循环脉动的粒子束,以便让粒子束在现有的小型加速器中环流,把能量逐渐加到每次通过的粒子上。美国陆军弹道研究试验室称,尚需进一步证实小型环流电磁感应加速器的原理。这种加速器能否投入战场使用,加速器的尺寸和重量是关键因素。美国还研制过一种实验加速器装置,其尺寸不大于一个办公桌,这是部署在外层空间可以接受的尺寸。

因为存在一系列技术难题,尽管俄美都在积极研究粒子束武器,但地基和天基粒子束武器截止2013年尚处于实验室的可行性验证阶段,估计2020年以后有可能进入实战部署。美国已做的基础工作包括:进行粒子束产生、控制、定向和传播技术理论验证和实验室的试验,用加速试验台进行试验,验证中性粒子束方案的可行性,同时探讨带电粒子束方案。按照美国的天基粒子束武器方案,氢原子束的能量为200MeV,武器重量60t,用以拦截大气层外助推段和中段飞行的洲际弹道导弹的弹头。

应用
高技术战争中的应用
根据美国80年代以来的研究结果,粒子束武器在高技术战争中的应用主要在于,利用中性粒子束武器进行洲际弹道导弹的拦截和弹头飞行中段的识别。由于粒子束生成装置、能源系统及高能粒子束传输等问题的解决技术难度太大,在可预见的将来把中性粒子束用于洲际弹道导弹弹头中段的识别,也许是唯一可行的应用。

洲际弹道导弹的中段防御既很重要又十分复杂,因为现代洲际导弹在飞行中段除了释放弹头之外,还释放出大量的诱饵假弹头,要进行中段防御,首先必须将真弹头从大量的假弹头中鉴别出来,而这是一项难度很大的技术。采用常用的成像技术和辐射测量技术以及低功率激光或微波检测技术等难以识别真假弹头,而中性粒子束能有效地进行这种识别。

俄美对于粒子束武器的出发点是立足于空间作战与防御,主要工作是基础研究和高能量转换技术的研究;对于地基粒子束武器的研究只局限于作为点防御作战的近程武器系统范围,主要是确保带电粒子束在大气层中长距离的稳定传播。
能量转换技术的研究的目的是要形成高速粒子脉冲。美空军的研究机构称,传统的可控硅开关和火花放电开关的研究已经完成,下一步要开展磁性开关研究,这种开关基于饱和的电磁感应原理,具有很高的重复率。

http://www.168kk.com/jsht/2015/0922/11653.html



Neutral particle beam weapons for ICBM interception and warhead identification

刀大可否对散裂中子源与中性粒子束武器,或简称中子武器做一下点评!

2017-9-11

根据美国研究的相关结果显示,粒子束武器在高科技战争中的应用主要在与,利用中性粒子束武器进行洲际弹道导弹的拦截和弹头飞行中段的识别。

洲际弹道导弹在飞行中除了释放弹头之外,还会释放出大量的诱饵假弹头,想要将弹头从大量的假弹头中鉴别出来,真的是一项难度很大的技术,而中性粒子束就能有效的进行这种识别。

粒子束武器是利用加速器把质子和中子等粒子加速到数万—20万km/s的高速,并通过电极或磁集束形成非常细的粒子束流发射出去,用于轰击目标。
按粒子是否带电可分为带电粒子束武器和中性粒子束武器。粒子束武器在太空可以破坏数十公里以外的目标;但在大气中威力衰减,只能攻击数公里以外的目标。

据悉,目前研究粒子束武器的国家仅有俄美中三大国,粒子束武器具有较大的能量,并且拥有很大的用途,那么俄美中如今粒子束武器发展的现状如何?
http://www.168kk.com/jsht/2015/0922/11653_2.html

粒子束的毁伤作用表现在:
(1)使目标结构汽化或熔化;
(2)提前引爆弹头中的引信或破坏弹头的热核材料;
(3)使目标中的电子设备失效或被破坏。
粒子束既可实施直接穿透目标的“硬杀伤”,也能实施局部失效的“软杀伤”。带电粒子束对目标的穿透能力极强,能量集中,脉冲发射率高,能快速改变发射方向。中性粒子束还可对目标周围产生的中子、γ、X射线进行遥测,实现对目标的识别。

1976年,美国预警卫星探测到前苏联在哈萨克斯坦的沙漠地带进行了产生带电粒子束的核聚变型脉冲电磁流体发动机的试验。对粒子束武器的研究,前苏联是从1974年开始的,进行过带电粒子束对洲际弹道导弹、宇宙飞船以及固体燃料目标的照射试验。美国是从1978年开始的,20世纪80年代中期开始在实验室进行理论验证。

美国海军在20世纪70年代建立了开发粒子束武器的跷板计划,研究用带电粒子束拦截导弹的核弹头。美国国防部在1981年设立了定向能技术局来开发粒子束武器和激光武器,从1981财年开始实施预算额为3.15亿美元的5年开发计划。粒子束作为武器使用时必须兼备大电流和高能量以及数兆瓦的能源,它要在现有的基础上,功率增加几千倍,甚至几万倍。

美国已确定粒子束武器的潜在用途是拦截导弹、攻击卫星以及在敌防区外实施扫雷等。截止2013年,产生粒子束的方法是利用线性电磁感应加速器,但由于加速器太笨重,无法投入战场使用。

美国在基础研究中主要是抓紧研究适于部署在地基和天基反导平台上的小型、高效加速器及其技术。美国利用线性电磁感应加速器产生粒子束,通过同一加速器,连续再循环脉动的粒子束,以便让粒子束在现有的小型加速器中环流,把能量逐渐加到每次通过的粒子上。美国陆军弹道研究试验室称,尚需进一步证实小型环流电磁感应加速器的原理。这种加速器能否投入战场使用,加速器的尺寸和重量是关键因素。美国还研制过一种实验加速器装置,其尺寸不大于一个办公桌,这是部署在外层空间可以接受的尺寸。

因为存在一系列技术难题,尽管俄美都在积极研究粒子束武器,但地基和天基粒子束武器截止2013年尚处于实验室的可行性验证阶段,估计2020年以后有可能进入实战部署。美国已做的基础工作包括:进行粒子束产生、控制、定向和传播技术理论验证和实验室的试验,用加速试验台进行试验,验证中性粒子束方案的可行性,同时探讨带电粒子束方案。按照美国的天基粒子束武器方案,氢原子束的能量为200MeV,武器重量60t,用以拦截大气层外助推段和中段飞行的洲际弹道导弹的弹头。

根据美国80年代以来的研究结果,粒子束武器在高技术战争中的应用主要在于,利用中性粒子束武器进行洲际弹道导弹的拦截和弹头飞行中段的识别。由于粒子束生成装置、能源系统及高能粒子束传输等问题的解决技术难度太大,在可预见的将来把中性粒子束用于洲际弹道导弹弹头中段的识别,也许是唯一可行的应用。

洲际弹道导弹的中段防御既很重要又十分复杂,因为现代洲际导弹在飞行中段除了释放弹头之外,还释放出大量的诱饵假弹头,要进行中段防御,首先必须将真弹头从大量的假弹头中鉴别出来,而这是一项难度很大的技术。采用常用的成像技术和辐射测量技术以及低功率激光或微波检测技术等难以识别真假弹头,而中性粒子束能有效地进行这种识别。

俄美对于粒子束武器的出发点是立足于空间作战与防御,主要工作是基础研究和高能量转换技术的研究;对于地基粒子束武器的研究只局限于作为点防御作战的近程武器系统范围,主要是确保带电粒子束在大气层中长距离的稳定传播。

能量转换技术的研究的目的是要形成高速粒子脉冲。美空军的研究机构称,传统的可控硅开关和火花放电开关的研究已经完成,下一步要开展磁性开关研究,这种开关基于饱和的电磁感应原理,具有很高的重复率。

本人认为散裂中子源装置的公布与中性粒子束武器反导之间或有联系,或是对美帝的战略威慑!刀大对我国在西北反导试验不断被人目击并且被公布图片有何评论?


http://bbs.meyet.com/forum.php?mod=redirect&goto=findpost&ptid=321328&pid=3805812

 
Chinese cargo spacecraft completes automated fast-docking with space lab

2017-09-13 08:35

Xinhua Editor: Gu Liping

China's first cargo spacecraft, Tianzhou-1, completed an automated fast-docking with Tiangong-2 space lab at 11:58 p.m. Tuesday.

Controlled from Earth, Tianzhou-1 began to approach Tiangong-2 at 5:24 p.m. Tuesday and it took six and a half hours to complete the fast-docking with the space lab.

It was the third docking between the two spacecraft using fast-docking technology. Previously, it took about two days to dock.

The experiment tested the cargo spacecraft's capability of fast-docking, laying a foundation for future space station building.

Tianzhou-1 was launched on April 20 from south China's Hainan Province, and it completed the first and second docking with the orbiting Tiangong-2 space lab on April 22 and June 19, respectively.

The cargo spacecraft will conduct the third refueling of the space lab before returning to Earth.

The two spacecraft completed their first in-orbit refueling on April 27 and their second in-orbit refueling on June 15.

China is the third country, after Russia and the United States, to master refueling techniques in space, which is crucial in the building of a permanent space station.

Tiangong-2, which was sent into space on Sept. 15, 2016, is China's first space lab "in the strict sense" and a key step in building a permanent space station.

Cargo ships play a crucial role maintaining a space station and carrying supplies and fuel into orbit.

http://www.ecns.cn/2017/09-13/273310.shtml
 
China's BeiDou-3 satellites get new chips

2017-09-17 09:01 Xinhua Editor: Li Yan

A new chip for the BeiDou Navigation Satellite System (BDS) was unveiled on Saturday by the Global Navigation Satellite System and Location Based Service (GNSS & LBS) Association of China (GLAC).

The chip supports the new generation of BeiDou-3 satellites for high-precision navigation and positioning. The positioning accuracy of the chip reaches the sub-meter level without ground-based augmentation.

The chip, developed by Shenzhen-based Allystar Technology, also has uses in unmanned driving systems, wearable devices, precision agriculture and smart logistics.

The value of the satellite navigation and LBS industry stood at 212 billion yuan (31 billion U.S. dollars) in 2016, up 22.1 percent from 2015, according to the GLAC. Core output totaled 80.8 billion yuan, 70 percent of which came from BDS.

Four BeiDou-3 satellites will be launched by the end of this year, and a complete global satellite navigation system in place around 2020, according Yang Changfeng, the system's chief designer.

The scale of the BDS industry will reach 240 billion yuan around 2020, said Yang.

http://www.ecns.cn/2017/09-17/273888.shtml
 
China to launch more BeiDou-3 satellites in 2017
Source: Xinhua| 2017-09-18 19:53:07|Editor: An



BEIJING, Sept. 18 (Xinhua) -- More BeiDou-3 satellites will be launched in November 2017, according to a senior designer of the satellite navigation system.

By the end of this year, two more groups of BeiDou-3 satellites will be sent into space, said Ran Chengqi of state-owned Beidou Navigation Satellite System on Monday at a high-tech forum.

The satellite navigation system will provide services for Belt and Road countries around 2018, and form a complete global satellite navigation system by 2020, said Ran.

BeiDou-3's position accuracy is less than five meters, he said.

Currently, the system is able to provide open services to the Asia-Pacific region. China is the third country to develop a satellite navigation system after the United States and Russia.
 
China’s atomic clock aboard the Tiangong-2 space lab passes tests in orbit



Tianzhou 1 has been deorbited today at ~10:00 UTC (some final shots before burning up can be seen below):

I hope that Long March failure doesn't delay Chinese space programmes ... that would be very unfortunate. Lately, they've seemed to be doing very well.
 
I hope that Long March failure doesn't delay Chinese space programmes ... that would be very unfortunate. Lately, they've seemed to be doing very well.
By some logic there must be some delay caused by such failure... impossible to think that there's no effect at all. BUT what's the MOST important thing is to find out the root cause, eliminate such risk and take very good lessons from the costly mistake and avoid the same trap in the future... for complacency does definitely kill! Schedule thing is less important in this regard and it can wait for those most important corrective actions!
 
By some logic there must be some delay caused by such failure... impossible to think that there's no effect at all. BUT what's the MOST important thing is to find out the root cause, eliminate such risk and take very good lessons from the costly mistake and avoid the same trap in the future... for complacency does definitely kill! Schedule thing is less important in this regard and it can wait for those most important corrective actions!
Indeed, the Long March Series has one of the highest success rates for any rocket ... I believe at 98%.
 
China launches three satellites
Source: Xinhua| 2017-09-29 13:25:25|Editor: Mengjie



136648095_15066716167341n.jpg
China launches the Yaogan-30 01 satellites on a Long March-2C rocket from the Xichang Satellite Launch Center in Xichang, southwest China's Sichuan Province, Sept. 29, 2017. (Xinhua/Bai Xiaofei)

BEIJING, Sept. 29 (Xinhua) -- China launched three remote sensing satellites Friday on a Long March-2C rocket from Xichang Satellite Launch Center in southwest China's Sichuan Province.

The Yaogan-30 01 satellites will conduct electromagnetic probes and other experiments.

The launch is the 251st flight mission of the Long March rocket family.

upload_2017-9-29_16-26-57.jpeg


 
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Months after rocket failure, China sends spy satellites into space

Chinese military’s three new probes will form a constellation to ‘monitor electromagnetic signals’

By Stephen Chen - South China Morning Post
PUBLISHED : Friday, 29 September, 2017, 11:00pm
UPDATED : Saturday, 30 September, 2017, 12:49am

China launches the Yaogan-30 01 reconnaissance satellites 2017-09-29 -01.jpg

The Yaogan-30 satellites are launched on a Long March-2C rocket from the Xichang Satellite Launch Centre in southwestern Sichuan province on Friday. Photo: Xinhua

China successfully put three new reconnaissance satellites into orbit using a Long March-2C rocket on Friday – its first launch in nearly three months.

All launch activities had been put on hold after two failures in June and July that have delayed Beijing’s ambitious space programme, which includes lunar exploration.

The three Yaogan-30 satellites were launched from a centre in Sichuan province (i.e. Xichang Satellite Launch Center in Xichang). They will join a larger probe launched in May last year to form a constellation to “monitor electromagnetic signals” and other unspecified missions, state news agency Xinhua reported.

The satellites are capable of intercepting radio signals from communications on Earth. They could also pick up the electromagnetic pulses generated by a nuclear explosion to gather intelligence after a thermonuclear weapon test, according to scientists.

But the mission and technical details of the satellites was not disclosed.

“These are military assets – they are not for civilian use, there’s no access,” said Li Xiaoming, a researcher at the Institute of Remote Sensing and Digital Earth at the Chinese Academy of Sciences in Beijing.

The Yaogan satellites are owned and operated by the People’s Liberation Army. The Chinese military has carried out more than 30 launches of the satellites since 2006, according to state media reports.

In the past, official announcements have listed civilian applications for the probes such as land use analysis and disaster relief, but this time there was no mention of any civilian uses.

China launches the Yaogan-30 01 reconnaissance satellites 2017-09-29 -02.jpg

The Yaogan satellites can intercept radio signals from communications on Earth. Photo: Xinhua

They were developed by the Micro-Satellite Research Institute at the Chinese Academy of Sciences in Shanghai, according to Xinhua.

They are “just the first batch” of a number of similar satellites being developed for a planned global surveillance network, according to a researcher familiar with the project.

Equipped with cutting-edge sensors, the small satellites orbit the Earth in large numbers and at relatively low altitudes – meaning they can take continuous, high-definition images and pick up extremely faint signals, a job previously done by bigger satellites, the researcher said.

China was also developing large reconnaissance satellites, the researcher said, some of them equivalent to the biggest spy satellites of the United States.

But problems with the Long March rocket have delayed their launch.

The new Long March-5 heavy-lift launch vehicle lost power and plunged into the Pacific Ocean in July, taking with it China’s largest communications satellite.

That came just weeks after the unsuccessful launch of the Long March-3B due to a technical glitch in June.

Tian Yulong, secretary general of the China National Space Administration, told an international space conference in Beijing early this week that they had yet to determine what went wrong during the July launch.

Chinese space scientists and engineers have identified the cause of previous failures within weeks and sometimes hours of the malfunction. This time, months on, the authorities have yet to provide any details.

More than 80 per cent of the technology used in the Long March-5 – China’s biggest and most sophisticated rocket – was new, according to state media reports.

Tian said the team hoped to determine the cause of the problem by the end of this year. All space flights requiring heavy-lift launch vehicles would be delayed, including its mission to build a space station, he added.

http://www.scmp.com/news/china/soci...cket-failure-china-sends-spy-satellites-space
 

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