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TJU Space Mechanics Team participates in country’s 1st lunar sample return mission

As millions of people watched the lander-ascender combination of China’s Chang’e-5 spacecraft touch down successfully on the moon surface and unfold its solar panels in awe and excitement, researchers from the Space Mechanics Team of Tianjin University cheered with a mixed feeling of relief and pride.

Being part of the efforts to ensure the lunar probe’s successful landing, the research team led by Professor Cui Yuhong and Professor Wang Jianshan has engaged in building ground experimental landing site for test landing on extraterrestrial lunar body.

“We designed and built a simulated moon surface with multiple lunar terrains like rocks, craters and slopes and offered more than 20 terrain combination options,according to technical parameter requirements” said Prof. Cui Yuhong.

On the trial ground, the team then simulated the gravity of the moon, about one-sixth of the gravity on Earth, to test the force and deformation of the lander's soft-landing design.

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Senor Engineer Xu Jiafu (in the center) together with team researchers

They developed a 1 / 6G gravity simulation slope that can not only simulate the friction coefficients of various surface obstacles posed by rocks or craters and different landing surfaces on the lunar surface, but also withstand the landing impact of a model weighing several tons, meeting the strict requirements on geometric characteristics, stiffness, elastic modulus and surface friction index of the simulated lunar surface.

Another contribution the team made to the mission was their study about theinteraction between a rocket plume and lunar dusts, which shed light on the design of Chang’e-5 probe’s soft-landing control system.

“The lunar surface was eroded by the exhaust plume and a large amount of lunar dusts are entrained into a high-velocity spray. This high-speed lunar dust can have many adverse effects on the normal operation of the lunar landers like blocking the sights and damaging facilities,” Prof. Wang Jianshan said, “Our research proposes a gas-particle two-way coupled method for simulating the interaction, which proves quite credible after its results were compared with Apollo lander measured data and other simulation results and showed good agreement.”

It is learnt that the Space Mechanics Team of Tianjin University has participated in the national major science and technology projects such as the "lunar exploration project" and the "Mars exploration program" in last decade. Their research methods and achievements have been adopted by the chang'e-3, 4 and 5 landers, and will also be applied to the future Chang'e landers, providing important research methods and reference data for China's lunar exploration project.

By Eva Yin​
 
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Global Times @globaltimesnews
China state-affiliated media

China is building a rocket testing and assembling base in Haiyang, East China's Shandong Province, where 20 solid-fuel launch vehicles will be assembled every year after its completion.

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5:50 PM · Oct 9, 2020

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China to build new production base for solid rockets
Source: Xinhua| 2020-12-02 21:28:57|Editor: huaxia

JINAN, Dec. 2 (Xinhua) -- Chinese rocket manufacturer, China Rocket Co., Ltd., and the municipal government of Haiyang in east China's Shandong Province signed a contract Wednesday pledging to build a 163-hectare production base for solid-propellant rockets.

The base will be able to produce 20 solid rockets annually, including Smart Dragon series carrier rockets, upon its completion, according to the company.

The production base will also offer services such as rocket assembling, testing and seaborne rocket launch for domestic and overseas aerospace companies.

The base is part of a comprehensive aerospace project currently under construction in Haiyang City. With an investment of 23 billion yuan (about 3.5 billion U.S. dollars) and a total planned area of 1,860 hectares, the project includes an aerospace industrial park, a homeport for seaborne rocket launches, and an aerospace-themed tourist park.

In June last year, China successfully launched a Long March-11 carrier rocket from a mobile platform in the Yellow Sea off the coast of Haiyang, marking the country's first space launch from a sea-based platform. The rocket was transported from Haiyang Port to the launch site.

So far, the port has seen two successful seaborne rocket launches.
 
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TJU Space Mechanics Team participates in country’s 1st lunar sample return mission

As millions of people watched the lander-ascender combination of China’s Chang’e-5 spacecraft touch down successfully on the moon surface and unfold its solar panels in awe and excitement, researchers from the Space Mechanics Team of Tianjin University cheered with a mixed feeling of relief and pride.

Being part of the efforts to ensure the lunar probe’s successful landing, the research team led by Professor Cui Yuhong and Professor Wang Jianshan has engaged in building ground experimental landing site for test landing on extraterrestrial lunar body.

“We designed and built a simulated moon surface with multiple lunar terrains like rocks, craters and slopes and offered more than 20 terrain combination options,according to technical parameter requirements” said Prof. Cui Yuhong.

On the trial ground, the team then simulated the gravity of the moon, about one-sixth of the gravity on Earth, to test the force and deformation of the lander's soft-landing design.

Senor Engineer Xu Jiafu (in the center) together with team researchers

They developed a 1 / 6G gravity simulation slope that can not only simulate the friction coefficients of various surface obstacles posed by rocks or craters and different landing surfaces on the lunar surface, but also withstand the landing impact of a model weighing several tons, meeting the strict requirements on geometric characteristics, stiffness, elastic modulus and surface friction index of the simulated lunar surface.

Another contribution the team made to the mission was their study about theinteraction between a rocket plume and lunar dusts, which shed light on the design of Chang’e-5 probe’s soft-landing control system.

“The lunar surface was eroded by the exhaust plume and a large amount of lunar dusts are entrained into a high-velocity spray. This high-speed lunar dust can have many adverse effects on the normal operation of the lunar landers like blocking the sights and damaging facilities,” Prof. Wang Jianshan said, “Our research proposes a gas-particle two-way coupled method for simulating the interaction, which proves quite credible after its results were compared with Apollo lander measured data and other simulation results and showed good agreement.”

It is learnt that the Space Mechanics Team of Tianjin University has participated in the national major science and technology projects such as the "lunar exploration project" and the "Mars exploration program" in last decade. Their research methods and achievements have been adopted by the chang'e-3, 4 and 5 landers, and will also be applied to the future Chang'e landers, providing important research methods and reference data for China's lunar exploration project.

By Eva Yin​

Young folks. Hopefully, the US will drive more of them back home.

Hint for Pompeo: They are all CCP members. Get rid of them.
 
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First Look: Chang'e 5

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Box indicates Chang'e 5 lander on the basaltic plains of Oceanus Procellarum ("Ocean of Storms") on 02 December 2020 09:54 EST (14:53:55 UTC). The lander is the bright spot in the center of the outline. The areas around the lander has been brightened due to the descent engine plume impigement on the surface (similar to what has been observed at other landing sites). Outline is 1210 meters wide; north is up. LROC NAC M1361560086R [NASA/GSFC/Arizona State University].


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First Look: Chang'e 5 | Lunar Reconnaissance Orbiter Camera
 
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Highlighting work of Shanghai scientists in Chang'e-5 mission
Li Qian
20:46 UTC+8, 2020-12-05

Highlighting work of Shanghai scientists in Change-5 mission
Researchers from the Shanghai Institute of Technical Physics of the Chinese Academy of Sciences test the spectrometer.
Highlighting work of Shanghai scientists in Change-5 mission
Payloads developed by the Shanghai Institute of Technical Physics of the Chinese Academy of Sciences.

The world is now awaiting the return of the first lunar samples in 44 years. In China’s first sample-return attempt, local researchers are putting their shoulders to the wheel.

Traveling 380,000 kilometers in seven days, China’s sixth lunar mission Chang'e-5 landed on the Oceanus Procellarum, or “Ocean of Storms,” a previously unvisited area in a massive lava plain on the near side of the moon, on December 1.

After a 19-hour operation, it finished collecting, packaging and sealing samples of lunar soil and rock. A spacecraft carrying the samples lifted off from the lunar surface on December 3, and is scheduled to return home in mid-late December.

If successful, China will also be the third nation to bring lunar samples to the Earth after the United States and the former Soviet Union. Also, it will be the first to bring lunar samples to the Earth in 44 years after the former Soviet Union’s Luna 24 mission in 1976.

The spectrometer developed by the Shanghai Institute of Technical Physics of the Chinese Academy of Sciences has scanned all the sampling area, providing useful scientific data for research in lunar science.

It works based on sunlight reflected on the moon. It can tell the distribution of minerals in the sampling area and reveal the mineral composition of samples, according to He Zhiping, a researcher from the institute.

“No man has ever walked on the sampling area," he said. "It’s a virgin land showing the moon in the raw. So, before and after sampling, mineral composition of lunar soil on the surface and sub-surface may show some differences, the spectral data may help us understand evolution of the moon."

Compared with predecessors onboard Chang’e-3 and Chang’e-4, the newest generation is equipped with an extended wavelength range, which enables it to detect hydroxyl in hydrates.

“It probably provides useful reference to find traces of water and hydroxyl on the moon,” He said.

Also, it can rotate automatically to detect what it wants to detect in a certain range.

The other state-of-the-art payloads developed by the institute work as “obstacle avoidance laser radars” to ensure the soft landing of the probe, according to Shu Rong, deputy director of the institute.

Chang’e-5 has successfully avoided hitting rocks and craters on the moon surface by shifting parallell 6 meters, and made a stable and soft landing.

When it was about 20 kilometers above the moon, the laser range sensor began its work, mapping the height to the moon’s surface. When it was 2.5 kilometers above, the laser speed sensor started to measure the descending speed of the lander. When it was only 100 meters above, a 3D imaging sensor provided 3D pictures of the landing area, according to Xu Weiming, a researcher from the institute.

“This time, we’ve cut 30 percent of the weight of other payloads to make room for the laser speed sensor," he said. "It’s an emerging technology that can detect very slight speed change, even 0.1 meter per second."

Other Shanghai institutes under CAS have also made their contributions to the probe.

The Shanghai Astronomical Observatory of the CAS is using the Very Long Baseline Interferometry to track and position Chang’e-5 on its 23-day journey.

China’s VLBI system is made up of a VLBI center and four stations in Shanghai, Beijing, Kunming in southwest Yunnan Province and Urumqi in the northwest Xinjiang Uygur Autonomous Region. They form one giant “telescope” with a diameter of more than 3,000 kilometers.

The system allows researchers on the Earth to have immediate access to Chang’e-5’s exact position.

The journey to the moon is tough. Spacecraft are exposed to an extremely tough environment where temperatures can quickly swing from 100 degrees Celsius above zero to 100 degrees below zero.

So, the Shanghai Institute of Organic Chemistry of the CAS has designed thermal control coatings for the spacecraft. The coatings featuring different levels of solar absorption and thermal emittance.
 
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#嫦娥五号对接组合体成功分离#】12月6日12时35分,嫦娥五号轨道器和返回器组合体与上升器成功分离,进入环月等待阶段,准备择机返回地球。(来源:国家航天局)​

China Aerospace Science and Technology Corporation
Today at 13:24

[#Chang'e 5 docking assembly successfully separated#]

At 12:35 on December 6th, the Chang'e-5 orbiter and returner combination successfully separated from the ascender and entered the waiting phase around the moon, ready to return to Earth. (Source: National Space Administration)

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