What's new

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

CZ-7 Mobile Launch Platform
1438762960524647.jpg

CZ-7 Launch Tower/Pad
1438762975222511.jpg
 
China develops ability to intercept Inter-Continental Ballistic missiles

Fayyaz Hussain

August 8, 2015 8:42 pm

04-cheng-yong-450x300.jpg


SHANGHAI (Web Desk) – China’s Science and Technology Daily magazine reports that China has now developed the capacity to intercept ICBMs.

It has published a report of China’s advances in laser technology, spearheaded by China’s top laser scientist Cheng Yong’s, which have enabled the interception by Chinese military, China Daily Mail reported.

The report says that Cheng Yong and his team have been making breakthroughs in strategic technology vital to the development of photoelectric equipment such as adjust-free laser, DLC film prepared by laser deposition and coherent combination of mutual injection, etc.

ICBM is a ballistic missile with a minimum range of more than 5,500 kilometers primarily designed for nuclear weapons delivery (delivering one or more nuclear warheads).

Cheng has tackled problems that even US experts find difficult, including making the world’s first adjustment-free solid laser.

In 2000, Cheng found that China’s infrared window, the eye of China’s large weapon for interception, was not hard enough to resist injury or chemically stable enough to resist erosion, and it became “blind” under hypersonic speed.

To remedy this, he spent four years developing DLC film prepared by laser deposition.

The film was used in China’s new ICBM defence missile to increase its speed by 30%. In 2011, the missile successfully passed a test to intercept an ICBM in mid-course.

China develops ability to intercept Inter-Continental Ballistic missiles - Daily Pakistan Global

The above is not the complete story reported in Chinese。:hitwall:
 
Beidou satellites begin autonomous operation in space
August 14, 2015

After more than 10 days in space, China's 19th Beidou navigation satellite is working autonomously and has set up a link with another satellite.

The two satellites were launched on the same day by a Long March III-B rocket from the Xichang Satellite Launch Center in Sichuan Province, southwest China, on July 25.

Xie Jun, chief designer of the Beidou navigation satellite system, says China has successfully tested the autonomous control technology of the Beidou global navigation satellite constellation, an alternative to U.S.-operated GPS, marking a solid step toward building a system with global coverage.

China plans to set up a complete constellation of 35 satellites, achieving global coverage by 2020.

The "twin sats" surpass their predecessors in speed, accuracy and weight.

"The biggest difficulty is the autonomous navigation technology," Xie said. "We need it to maintain the sustainable development of the project."

Wang Ping, another chief engineer on the project, says the inter-satellite link realizes communication and distance measurement among satellites, bringing autonomous control of the navigation system a step closer.

Autonomous navigation is the project's key to global operation. It enables satellites to work independently, providing users with more accurate data.

Using the Chinese word for the plough, or the Big Dipper, constellation, the project was formally launched in 1994, some 20 years after the inception of GPS. The first Beidou satellite was launched in 2000.

By 2012, a regional network had taken shape and was providing positioning, navigation, timing and short message services in China and other Asian countries.

Beidou is one of the world's four main navigation systems, along with GPS there is Russia's GLONASS, and the European Union's Galileo. All four use autonomous navigation technology.

@cirr , @terranMarine , @Economic superpower
 
China's Beidou satellites begin autonomous operation in space

After more than 10 days in space, China's 19th Beidou navigation satellite is working autonomously and has set up a link with another satellite.

The two satellites were launched on the same day by a Long March III-B rocket from the Xichang Satellite Launch Center in Sichuan Province, southwest China, on July 25.

Xie Jun, chief designer of the Beidou navigation satellite system, says China has successfully tested the autonomous control technology of the Beidou global navigation satellite constellation, an alternative to U.S.-operated GPS, marking a solid step toward building a system with global coverage. Beidou satellites begin autonomous operation in space - People's Daily Online

 
Guang Xi Nannan Aluminum Co., Ltd.'s project of making super-size aluminum alloy forging block for super heavy lift rocket passed acceptance test.

The 1.32m forging block(hard aluminum alloy cylindrical ingot) has to be made first.

And then it was processed to make the 8.7m diameter alloy ring used for the super heavy lift rocket fuel tank,

广西南南铝加工有限公司的“大推力火箭用超大规格铝合金锻坯的开发”项目通过验收
1439555166893733.jpg

The world's largest hard aluminum alloy cylindrical ingot. Diameter 1.32m


1439552756542147.jpg

直径达8.7米的大规格铝合金整体环
Aluminum alloy ring of diameter 8.7 meters

世界最大硬铝合金圆锭首现邕城 ——破解航天“密码” 填补国内空白

你能想象直径超过8.5米、高度超过100米的巨型火箭是怎样一个庞然大物吗?你知道其中最关键的部件是由一个直径1.32米的超大规格硬铝合金铸锭加工而形成的直径超过8.5米的金属环吗?它就像是“金箍棒”变成的“乾坤圈”。

经过一年多的努力,广西南南铝加工有限公司(以下简称南南铝加工公司)首先实现了世界上直径最大的硬铝合金铸锭和直径超过8.5米的超大规格铝合金整体环的制造,填补了国内空白。

这个“高大上”的“乾坤圈”是如何制造出来的?记者走进南南铝加工公司一探究竟。

铝合金上天要“经得起考验”

说起火箭,不少航天迷都知道,我国航天事业已经取得了世人瞩目的成就——从1970年4月24日长征一号火箭成功发射东方红一号卫星至今,长征系列运载火箭已完成200次发射,发射成功率居世界前列。

一般来说,火箭主要是由发动机、燃料贮箱、整流罩等部分组成,其结构材料大部分选用铝合金。铝合金在我们日常生活中的应用比比皆是,但用作航天材料,它的安全性和可靠性有保障吗?

经过合金化后,铝合金的强度和综合性能大大提高。铝合金密度小,比强度和比刚度高,尤其适合航天轻量化要求。火箭在整个发射过程中,整体结构要经受高 温、低温、大过载、冲击等恶劣条件的考验。目前国际上注册的铝合金有近600个牌号,每一类铝合金都有相应的特性,其中2219铝合金具备的高温和低温性 能,以及优异的焊接性能,特别适合运用于运载火箭燃料贮箱和整体结构。

“金箍棒”变身为航天“乾坤圈”

在南南铝加工公司的厂区里,记者看到现场展示着一个显眼的“大圆环”——直径相当于三层楼高度的金属环,这就是用于重型火箭结构最关键部件的大规格铝合金整体环。它是如何制造出来的?又有哪些具体用途呢?

锻造的铝合金整体环直径超过8.5米,首先必须先制作出一个直径超过1.3米的超大规格硬铝合金铸锭。如此大规格的铝合金铸锭铸造成形已经相当困难,还要保证整体组织性能的均匀,确实困难重重。

广西南南铝加工有限公司的“大推力火箭用超大规格铝合金锻坯的开发”项目通过验收 - China Spaceflight
 
1434081396126105.jpg

在天津厂区完成测试的长征五号芯二级动力系统试车箭
CZ-5 core second stage power system test module in Tianjin factory.

左侧是5米直径的二级液氢储箱,右侧是3.35米直径的二级液氧储箱。
On the left is 5m diameter liquid hydrogen tank, on the right is 3.35m liquid oxygen tank.

1437738002256042.jpg

1437726801653344.jpg


7月24日15时8分,我国在研长征五号运载火箭,在北京成功进行了芯二级首次动力系统试车。此次试车是我国迄今为止开展的最长时间系统级火箭动力试车,也是长征五号运载火箭转入发射场合练阶段的重要前提,对于按期实现成功首飞具有重要意义。

国防科工局副局长、国家航天局副局长吴艳华,国防科工局科技委主任栾恩杰在现场指导试车。
  用于此次试验的长征五号运载火箭芯二级产品,直径5米,总长约11米,使用无毒无污染的液态氧和液态氢作为火箭发动机推进剂。点火后,火箭芯二级动力系统按照真实飞行时序,圆满完成了两次启动点火,考核验证了芯二级模块设计方案的正确性和工作协调性。

  长征五号运载火箭不仅是我国首型全新研制的新一代运载火箭,也是我国目前运载能力最大的运载火箭,承担着后续探月工程三期、载人空间站等多个国家重大科技专项发射任务,目前已进入工程研制决战决胜阶段。

7月24日下午15点29分,由大火箭研制生产的“长征五号”运载火箭成功完成二级动力系统试车第一次试验,全面验证各系统性能。长征五号是我国目前运载能力最大、尺寸最大的火箭,计划于2016年首飞,其研制生产工作凝聚着全体大火箭人的心血。

At 15:08 on July 24 in Beijing, start of first test of core second stage power system. The test follow actual flight sequence with twice ignition firing. It successfully completed at 15:29.
2015年8月17日下午16:30,长征五号运载火箭成功完成二级箭体动力系统第二次试车试验。此次试验系长征五号最后一次地面点火试验,首飞指日可待。

Following the first test above, on 17th Aug 16:30 Beijing time, second test of core second stage power system completed successfully.
All ground firing testing for CZ-5 propulsion or power system are now completed.
 
Last edited:
2015年8月17日下午16:30,长征五号运载火箭成功完成二级箭体动力系统第二次试车试验。此次试验系长征五号最后一次地面点火试验,首飞指日可待。

Following the first test above, on 17th Aug 16:30 Beijing time, second test of core second stage power system completed successfully.
All ground firing testing for CZ-5 propulsion or power system are now completed.

The CZ-5 has completed all tests and is now ready for field drills at Wenchang Launch Site。
 
航天科技五院502所“在轨卫星维护服务”地面试验
2015/08/20

太空机器人加油过程:“左手”抓取、连接 “右手”加油
Space robotic arms refueling: "left hand" gripping follow by "right hand" refueling.
1440070409956357.jpg
1440070409797889.jpg
1440070408456523.jpg
1440070409636330.jpg

  据中国航天科技集团五院502所研发人员介绍,“太空医生”的两个机械臂相当于人的两只手,通过“左手”完成对卫星的抓取和连接,再通过“右手”顶上的加油枪完成对卫星的加油工作。说来轻松,可在太空失重环境下,整个过程就变得复杂了许多。

  太空加油难度超过航天器对接 机器人每次运动轨迹都不一样

  据研发人员介绍,在空中加油和在地面给汽车加油不一样,首先要对得准。这种对接方式是一种合作姿态的对接。像目标飞行器,比如天宫,是有姿态控制的,但如果是对一颗失效的、没有燃料的卫星,它是不能提供合作的姿态,所以这种对接要比天宫和神舟的对接更难。

  据了解,完成每一次任务,每一次操作,机器人的动作轨迹都是不一样的。包括它自己识别对象,识别加注接口,然后自主地控制接壁,规划接臂的轨迹,使得接臂自主到达目标稳定,再切换能力控制,形成稳定可靠的连接,为最后的加油做好准备。

妙手回春:能让卫星“起死回生” 多功能好比瑞士军刀

  虽然过程艰难,但这样的燃料补加对很多航天器有着重要意义。许多卫星本身情况良好,仅仅因为燃料耗尽就不得不废弃。如果有了这样的空中加油机器人,就能让燃料耗尽的卫星“起死回生”,而事实上,给卫星加油还只是这位太空航天员众多的技能之一。

  除此以外,它还能够自主更换工具,就像瑞士军刀一样。比如拧螺丝时,就能换成螺丝刀;剪切时,就换成剪刀,可以实现多功能的效用。

China Aerospace Science and Technology Corporation Fifth Academy 502 Institutes completed "Maintenance service for in orbit satellites" ground simulation test

In a national astronaut training base in Beijing, a robot with two mechanic arms and various cameras performed a simulated satellite refueling process.

"The two mechanic arms like human hands can connect with a satellite through a gripper on its left hand and refuel the satellite through a fuel nozzle installed on its right hand," said Zhu Zhibin, a robot specialist and developer at China Aerospace Science and Technology Corporation.

Zhu said that the robotic refueling can effectively revive satellites which have gone silent due to fuel exhaustion. But the process is much more complicated in the weightlessness in the outer space.

"First of all, it has to be highly accurate. Current docking of spacecraft is connection of cooperative operation as the targeted spacecraft, such as the orbiting space lab Tiangong, is controllable. But the status control is not available for a silent satellite without fuel. So this kind of docking is more difficult than the one between Tiangong and spacecraft Shenzhou," said Zhu.

According to Zhu, the robot is also designed for other tasks besides refueling satellites.

"It can automatically change tools, like a Swiss Army knife. For example, a screwdriver is available when it needs to turn screws and a scissor is available when the robot needs to cut something. It is multi-functional due to the automatic tool changing," Zhu said.

More->航天科技五院502所“在轨卫星维护服务”地面试验 - China Spaceflight
 
航天科技五院502所“在轨卫星维护服务”地面试验
2015/08/20

太空机器人加油过程:“左手”抓取、连接 “右手”加油
Space robotic arms refueling: "left hand" gripping follow by "right hand" refueling.
1440070409956357.jpg
1440070409797889.jpg
1440070408456523.jpg
1440070409636330.jpg

  据中国航天科技集团五院502所研发人员介绍,“太空医生”的两个机械臂相当于人的两只手,通过“左手”完成对卫星的抓取和连接,再通过“右手”顶上的加油枪完成对卫星的加油工作。说来轻松,可在太空失重环境下,整个过程就变得复杂了许多。

  太空加油难度超过航天器对接 机器人每次运动轨迹都不一样

  据研发人员介绍,在空中加油和在地面给汽车加油不一样,首先要对得准。这种对接方式是一种合作姿态的对接。像目标飞行器,比如天宫,是有姿态控制的,但如果是对一颗失效的、没有燃料的卫星,它是不能提供合作的姿态,所以这种对接要比天宫和神舟的对接更难。

  据了解,完成每一次任务,每一次操作,机器人的动作轨迹都是不一样的。包括它自己识别对象,识别加注接口,然后自主地控制接壁,规划接臂的轨迹,使得接臂自主到达目标稳定,再切换能力控制,形成稳定可靠的连接,为最后的加油做好准备。

妙手回春:能让卫星“起死回生” 多功能好比瑞士军刀

  虽然过程艰难,但这样的燃料补加对很多航天器有着重要意义。许多卫星本身情况良好,仅仅因为燃料耗尽就不得不废弃。如果有了这样的空中加油机器人,就能让燃料耗尽的卫星“起死回生”,而事实上,给卫星加油还只是这位太空航天员众多的技能之一。

  除此以外,它还能够自主更换工具,就像瑞士军刀一样。比如拧螺丝时,就能换成螺丝刀;剪切时,就换成剪刀,可以实现多功能的效用。

China Aerospace Science and Technology Corporation Fifth Academy 502 Institutes completed "Maintenance service for in orbit satellites" ground simulation test

In a national astronaut training base in Beijing, a robot with two mechanic arms and various cameras performed a simulated satellite refueling process.

"The two mechanic arms like human hands can connect with a satellite through a gripper on its left hand and refuel the satellite through a fuel nozzle installed on its right hand," said Zhu Zhibin, a robot specialist and developer at China Aerospace Science and Technology Corporation.

Zhu said that the robotic refueling can effectively revive satellites which have gone silent due to fuel exhaustion. But the process is much more complicated in the weightlessness in the outer space.

"First of all, it has to be highly accurate. Current docking of spacecraft is connection of cooperative operation as the targeted spacecraft, such as the orbiting space lab Tiangong, is controllable. But the status control is not available for a silent satellite without fuel. So this kind of docking is more difficult than the one between Tiangong and spacecraft Shenzhou," said Zhu.

According to Zhu, the robot is also designed for other tasks besides refueling satellites.

"It can automatically change tools, like a Swiss Army knife. For example, a screwdriver is available when it needs to turn screws and a scissor is available when the robot needs to cut something. It is multi-functional due to the automatic tool changing," Zhu said.

More->航天科技五院502所“在轨卫星维护服务”地面试验 - China Spaceflight


Video:[视频]太空机器人 让报废卫星起死回生_晚间新闻_视频_央视网
 
they should use it to try to fix the fail chinese nigerian satellite that could not open its solar panels. the satellite is still new. it would make very good practice dummy for this robo satellite. if it doesn't work, we'll just turn it into satellite killer and smash everything with them claws :D
 
Last edited:
China launches Yaogan-27 remote sensing satellite

English.news.cn | 2015-08-27 14:33:14 | Editor: Song Miou

134561308_14406579428961n.jpg


TAIYUAN, Aug. 27 (Xinhua) -- China's Yaogan-27 remote sensing satellite was sent into space on Thursday at 10:31 a.m. Beijing Time, from Taiyuan launch site in Shanxi Province, north China.

The satellite will mainly be used for experiments, land surveys, crop yield estimates and disaster prevention.

Yaogan-27 was carried by a Long March-4C rocket, the 207th mission for the Long March rocket family.

China launched the first "Yaogan" series satellite, Yaogan-1, in 2006.

134561308_14406579529381n.jpg
 

Pakistan Defence Latest Posts

Pakistan Affairs Latest Posts

Back
Top Bottom