Space manufacture blouses
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- China space clothing
- Making Stuff in Space: Off-Earth Manufacturing Is Just Getting Started
- How to Start a Clothing Line: Secrets from a Project Runway Designer
- Revealed: Spice Girls T-shirts made in factory paying staff 35p an hour
- Clothing Production
- Comparisons: women’s garments manufacturing cost survey between Korea and China
- Space manufacturing
- The Difference Between A $5 White Tee And A $125 White Tee
China space clothing
Space is a dangerous place for humans: Microgravity sets our fluids wandering and weakens muscles, radiation tears through DNA and the harsh vacuum outside is an ever-present threat. But for materials that show incredible strength, transmit information with barely any loss, form enormous crystals or even grow into organs, the harshness of space can be the perfect construction zone.
As the cost of spaceflight goes down, more of these materials may become cost-effective to make or study in space. And soon, more and more people might be carrying around objects built off the planet.
We make steel by heating things up at high temperature and maybe, depending on the steel, [in a] high-pressure environment. We can quench things; we can make things cold to make different materials or improve on those materials.
In space, microgravity lets materials grow without encountering walls, and it allows them to mix evenly and hold together without traditional supports. And a nearby ultrahigh vacuum helps things form without impurities. The International Space Station is falling at a constant rate around the Earth, which everyone on board experiences as a lack of gravity; on the station, you're always in free fall.
That environment, called microgravity, comes in handy for growing things that need to expand evenly in every direction or avoid the contamination of touching an enclosure's walls. Microgravity is of particular interest to people who create materials for miniaturized devices and computers, researchers told Space. Building in microgravity can reduce those defects. The first major candidate for making money on something made in space today, a special type of fiber-optic cable called ZBLAN, is a good example: When manufactured in microgravity, the thin cable is less likely to develop tiny crystals that increase signal loss.
When built without those flaws, the cable can be orders of magnitude better at transmitting light over long distances, such as for telecommunications, lasers and high-speed internet. The fiber is light enough — and can demand a high enough price — that sending the materials to manufacture it in space may be able to pay off commercially. Made In Space sent a microwave-size machine to the space station in December to test making at least feet meters of the cable, and another company is also developing a space station test payload.
Researchers mentioned a third with technology on the way, too. So, whatever you are going to be making in space that you're going to be sending down to Earth has to be incredibly valuable but also available per unit of mass. Fiber amplifiers, there's lasers for cutting, drilling and surgery … infrared imaging, remote IR. As the cost of sending things to space continues to decrease, experimenters can envision a number of other scenarios in which the space station environment could be key to manufacturing.
For instance, a substance called gallium nitride, used to make LEDs, is difficult to solidify in large amounts at a time because its two constituent molecules don't always bind perfectly in order, leading to defects. Reducing the movement of the melted fluid as hotter and less-dense fluid rises, which occurs because of gravity, can decrease those defects — as can preventing the highly reactive substance from touching the sides of its container, according to Randy Giles, chief scientist at the Center for the Advancement of Science in Space.
Someday, substances like that could benefit from in-space creation. The Electrostatic Levitation Furnace, a device that the Japan Aerospace Exploration Agency operates on the space station, is an example of the kind of setup that could avoid a container altogether, Giles said. The furnace can melt and solidify materials while levitating them in place using electrodes.
Experiments performed years ago using NASA's now-retired space shuttle orbiters also have provided reasons for optimism. Researchers pulled a stainless-steel disk called the Wake Shield Facility behind the shuttle, creating a vacuum in its wake that's 1, to 10, times emptier than what is possible on Earth. Experimenters used this cleaner vacuum of outer space to make thinner, purer samples of materials like semiconductors.
A large proportion of semiconductor components made on the ground end up being rejected because of impurities interrupting the matrix of atoms. As Rush put it, "If you have a piece of lint in your computer chip, it's not going to work very well. Microgravity offers a promising environment for manufacturing, as it's free from the stirring of convection that sinks heavier material down through a solution.
In microgravity, crystals can grow larger; in one experiment, crystals made from proteins grew to be 6 cubic millimeters, on average, compared with 0. Once grown, those crystals can be analyzed to determine the proteins' 3D structures, which can help inform new strategies for drug discovery. Growing other crystals, like those used to manufacture drugs or those that can detect gamma-rays and neutrons , in space so that they're bigger and purer can make the resulting material higher-quality.
The same holds true for metals. While metals made from a single element, like iron, can be useful, they can gain strength, flexibility or other special features when they incorporate other elements.
For example, integrating carbon, and small amounts of other metals, with iron creates the much stronger and harder steel. Metals that are a combination of elements are called alloys, and some can form only in a low-gravity environment.
Because materials in microgravity don't crystallize as quickly — such as the ZBLAN cable — you can even coax substances such as metal into amorphous, glass-like forms. Those metallic glasses can be molded at lower temperatures than ordinary metals can, and their noncrystallized structure makes them extra strong and resistant to corrosion. Department of Energy and the California Institute of Technology — mixes three or more metals to gain twice the strength of titanium.
While some metal alloys and glasses can be made on Earth, others can be developed — in large quantities, at least — only in the embrace of microgravity.
Such alloys and metallic glasses could someday form strong, easily molded spacecraft debris shields, paneling, mirrors and more, as well as contribute to manufacturing on Earth, experts say.
Space provides this strange, double-edged construction zone: It lets researchers test out materials to see how they withstand a harsh environment with powerful radiation and extreme temperature changes, but it also provides a particularly calm locale, gravity-wise, compared with Earth. Humans don't fare well in space over time, but it might be an ideal place to grow parts of them — organs, that is. Cells can grow into larger networks without gravity pulling them down into their container as would happen on Earth.
That vessel was developed to simulate an aspect of microgravity on Earth by continuously rotating at just the right speed to counter a substance's slow sedimentation down through a nutrient solution. But the larger a sample gets, the more energy you need to spend keeping its cells from hitting the bottom — a perturbation that can break up burgeoning colonies.
In free fall in space, such cells can form much larger tissues. Some current work on growing tissue in space focuses on making sure engineered tissues have an adequate blood supply; otherwise, they'll die from the inside out. While it's certainly more speculative, this is actually another plausible reason for private companies to get into the space industry, MacDonald said. It's hard to imagine routinely growing organs in space, but that's one of many possible money-making avenues as it becomes less expensive to put things in orbit.
But now we're kind of turning the corner on that. I think it's a very, very exciting time to be really exploring that. Another source of excitement for in-space manufacturing is building things for space that will never be constrained by the pull of Earth's gravity — or the crushing push of a rocket launch.
But the company's vision is much grander: Large-scale structures, like space telescopes or solar panels, could be printed in space instead of being folded up to launch into orbit. And visitors to other worlds could someday use the resources locally available to print shelters and other components, traveling only with the digital blueprints. Building in space will require a sound understanding of how materials react in space and how to get raw materials, as well as a rethinking of what can be used in a 3D printer or as the basis for space-made materials, researchers told Space.
And it does require combining and understanding not only the machine's capabilities, but the materials' qualities and properties for what you need to make. But whether microgravity-based materials research looks into building for Earth or for space, this area of investigation is making strange and wonderful things that have never been seen on the ground at those quantities or of that quality. It's a little like small satellites were 10 years ago. People could see that it was very exciting, and we were beginning to do experiments, but I think the really exciting stuff is still to come.
Email Sarah Lewin at slewin space. Original article on Space. Join our Space Forums to keep talking space on the latest missions, night sky and more! And if you have a news tip, correction or comment, let us know at: community space. Protein and virus crystals, many of which were grown on the U. The crystals range in size from a few hundred microns along their edge to more than a millimeter.
Crystals grown in microgravity environments can grow larger and purer than crystals on Earth, making it easier for scientists to analyze their underlying components. Image credit: NASA Free fall The International Space Station is falling at a constant rate around the Earth, which everyone on board experiences as a lack of gravity; on the station, you're always in free fall.
Making Stuff in Space: Off-Earth Manufacturing Is Just Getting Started
Fashion and Textiles. December , Cite as. This study aims to survey general information from garment factories in South Korea and China, representing, respectively, a developed country and a developing country. The results showed that there were meaningful differences between South Korea and China, as expected. Significant differences were shown in the number of employees, monthly wages, effecting factors on the lowest cost price period for a year; garment manufacturing time, and manufacturing costs of basic designs and detailed designs of blouse, pants, and jacket.
Space is a dangerous place for humans: Microgravity sets our fluids wandering and weakens muscles, radiation tears through DNA and the harsh vacuum outside is an ever-present threat. But for materials that show incredible strength, transmit information with barely any loss, form enormous crystals or even grow into organs, the harshness of space can be the perfect construction zone. As the cost of spaceflight goes down, more of these materials may become cost-effective to make or study in space. And soon, more and more people might be carrying around objects built off the planet. We make steel by heating things up at high temperature and maybe, depending on the steel, [in a] high-pressure environment.
How to Start a Clothing Line: Secrets from a Project Runway Designer
Refine your search Locate the companies on a map. Production of each type of clothing with the customer's logo: t- shirts , poloshirts, sweatshirts, shirts , trousers, sweaters, suits, jackets, underwear and others. Contact this company. Supplier of: Shirts and blouses women's coats jackets men's coats fur coats. Supplier of: Clothes, men's. Shirts Casual. Long Sleeve Shirts. Our monthly production capasity is as follows; pieces of shirt pieces of suit Supplier of: casual shirt classic shirt cotton shirts Suits - men men suits.
Revealed: Spice Girls T-shirts made in factory paying staff 35p an hour
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Comparisons: women’s garments manufacturing cost survey between Korea and China
Refine your search Locate the companies on a map. Production of each type of clothing with the customer's logo: t- shirts , poloshirts, sweatshirts, shirts , trousers, sweaters, suits, jackets, underwear and others. Contact this company. Supplier of: Shirts and blouses women's coats jackets men's coats fur coats. Supplier of: Clothes, men's. Shirts Casual. Long Sleeve Shirts.
After consolidating its market leadership with its own brands, it introduced premier international labels, enabling Indian consumers to buy the most prestigious global fashionwear and accessories within the country. With a revenue of Rs. Anchored by over , employees, belonging to 42 nationalities.
Is the designer tee just ridiculously marked up, or is there more to it than that? Everything from the type of fabric to the manufacturing process to the branding can have an effect on how much we pay. Or, alternatively, what exactly are we paying for?
The Difference Between A $5 White Tee And A $125 White Tee
There is no suggestion any of the celebrities were aware of conditions at the factory. Both said they had checked the ethical sourcing credentials of Represent, the online retailer commissioned by the Spice Girls to make the T-shirts, but it had subsequently changed manufacturer without their knowledge. However, a catalogue of evidence about conditions faced by the employees was uncovered, including allegations that:.
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