Hot New Products Stainless Steel in Rotterdam
Stainless steels generally contain between 10-20%chromium as the main alloying element and are valued for high corrosionresistance. With over 11% chromium, steel is about 200 times moreresistant to corrosion than mild steel. These steels can be divided into three groups based on their crystalline structure: Austenitic: Austenitic steels are non-magnetic and non heat-treatable, andgenerally contain 18% chromium, 8% nickel and less than 0.8% carbon. Austenitic steels form the largest portion o...
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Stainless steels generally contain between 10-20%
chromium as the main alloying element and are valued for high corrosion
resistance. With over 11% chromium, steel is about 200 times more
resistant to corrosion than mild steel. These steels can be divided into
three groups based on their crystalline structure:
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Austenitic steels are non-magnetic and non heat-treatable, and
generally contain 18% chromium, 8% nickel and less than 0.8% carbon. Austenitic steels
form the largest portion of the global stainless steel market and are
often used in food processing equipment, kitchen utensils and piping.
Ferritic: Ferritic steels contain trace amounts of nickel, 12-17% chromium, less than 0.1% carbon, along with other alloying elements, such as molybdenum, aluminum or titanium. These magnetic steels cannot be hardened with heat treatment, but can be strengthened by cold working.
Martensitic steels contain 11-17% chromium, less than 0.4% nickel and
up to 1.2% carbon. These magnetic and heat-treatable steels are used in
knives, cutting tools, as well as dental and surgical equipment.
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Discover 3D Designs – Rectangular Prism
Enjoyment children’s lesson on the 3D Shape the “Rectangular Prism”. What true globe objects are Rectangular Prisms? Find out in this movie, and then system actions for young ones to uncover the “Rectangular Prisms” about there household!
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Designer Mariëlle Leenders has experimented with fabric that features shape memory wire either woven into the material or added later as one or more lines of stitching. Her Moving Textiles (2000) react to differences in temperature by shrinking, creasing, changing structure or rolling up. Lines of stitching added to the basic material in certain places cause the fabric to creep up when temperatures rise.
Fabrics incorporating wire containing shape memory alloys (SMA) vary in form according to changes in temperature. The thin wire is made of an alloy based on nickel and titanium. This metallic material belongs to a group of related substances referred to as shape memory alloys (SMA). They possess the ability to return to some previously defined shape or size when subjected to the appropriate thermal procedure. Generally, the materials can be plastically deformed at some relatively low temperature, after which -upon exposure to some higher or lower temperature they revert to their original shapes. The temperature at which the material changes in form can be programmed precisely at any desired temperature between -50° and + 100°C. Materials that exhibit shape memory only upon heating have a one-way shape memory. A shape memory alloy deformed at a temperature slightly above its transformation temperature has a high degree of elasticity.
When a similar heating process is applied to Moving Textiles, a material that features shape memory wire, the fabric reacts to later changes in temperature (of more than 2.5°C) by shrinking, creasing, changing structure or rolling up. Normal fluctuations in body temperature, therefore, cause no reaction. But clothing made of Moving Textiles can be programmed to respond to the transition from outdoor temperatures to heated indoor spaces. Examples are sleeves that automatically roll up and down, a jacket that opens and closes on its own, and a shirt that expands and contracts in both length and circumference. Other possibilities are blinds that descend when exposed to warm sunlight and roll back up when the temperature drops, moving lampshades, etc. Moving Textiles can be used for both decorative and functional purposes.
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