materialselection.blogspot.com
MATERIALS SELECTION: March 2011
http://materialselection.blogspot.com/2011_03_01_archive.html
Function, material, shape and process. And the greater the interactions. It is like making wine: to make cooking wine, almost any grape and fermentation process will do; to make champagne, both grape and process must be tightly constrained. The interaction between function, material, shape and process lies at the heart of the material selection process. But first: a case study to illustrate the design process. MATERIALS SELECTION IN MECHANICAL DESIGN. MICHAEL F. ASHBY. Design tools and materials data.
plasticsmanufactur.blogspot.com
PLASTICS MANUFACTURING: September 2011
http://plasticsmanufactur.blogspot.com/2011_09_01_archive.html
Monday, September 19, 2011. Syndiotactic polystyrene is a semicrystalline polymer and is produced via metallocenecatalyzed polymerization of styrene.21 By comparison to general-purpose, amorphous polystyrene (PS, HIPS), SPS has tereoregularity in its structure, which facilitates crystallization. In SPS the phenyl groups alternate above and below the polymer chain. Hence SPS has a high crystalline melt point and good chemical resistance. Edward N. Peters. Selkirk, New York. Edited by Myer Kutz. Examples o...
plasticsmanufactur.blogspot.com
PLASTICS MANUFACTURING: Chemical/Solvent Resistance
http://plasticsmanufactur.blogspot.com/2011/03/chemicalsolvent-resistance.html
Friday, March 11, 2011. When an application requires exposure to or immersion in chemicals or other harsh environments, it is of prime importance to use prototypes of suitable stressed material for testing under actual operating conditions. Edward N. Peters. Selkirk, New York. Mechanical Engineers’ Handbook: Materials and Mechanical Design, Volume 1, Third Edition. Edited by Myer Kutz. Posted by Design 3dmax. Subscribe to: Post Comments (Atom). Therefore I want to help people to be smarter in the designer.
plasticsmanufactur.blogspot.com
PLASTICS MANUFACTURING: Properties
http://plasticsmanufactur.blogspot.com/2011/03/properties.html
Tuesday, March 15, 2011. Plastic materials can encounter mechanical stress, impact, flexure, elevated temperatures,. Different environments, etc. Hence various properties are measured and reported to give an. 338 Plastics: Information and Properties of Polymeric Materials. Indication of a material’s ability to perform under various conditions. Properties are determined. On standard test parts and are useful for comparative purposes. A description of. Amount. Higher values mean the material is stronger.
plasticsmanufactur.blogspot.com
PLASTICS MANUFACTURING: Styrene/Acrylonitrile (SAN) Copolymer
http://plasticsmanufactur.blogspot.com/2011/12/styreneacrylonitrile-san-copolymer.html
Saturday, December 3, 2011. Increase SAN’s physical properties but will make melt processing more difficult and will decrease the transparency. In general, the AN level in SAN does not exceed 30% for molding applications. Typical properties appear in Table 7. Uses. SAN is utilized in typical PS-type applications where a slight increase in heat deflection temperature and/or chemical resistance is needed. Such applications include appliances. For STEP BY STEP GUIDE solidwork simple tutorial please visit.
plasticsmanufactur.blogspot.com
PLASTICS MANUFACTURING: Plastics Additives
http://plasticsmanufactur.blogspot.com/2011/03/plastics-additives.html
Sunday, March 13, 2011. This chapter focuses on properties of the base resins with very few additives other than stabilizers. Properties for plastics that contain glass fiber (GF) are listed for those plastics that routinely use such reinforcing fibers. Edward N. Peters. Selkirk, New York. Mechanical Engineers’ Handbook: Materials and Mechanical Design, Volume 1, Third Edition. Edited by Myer Kutz. Posted by Design 3dmax. Subscribe to: Post Comments (Atom). View my complete profile. Polymethylpentane is ...
plasticsmanufactur.blogspot.com
PLASTICS MANUFACTURING: Polymeric Materials
http://plasticsmanufactur.blogspot.com/2011/09/polymeric-materials.html
Saturday, September 10, 2011. Synthetic large molecules are made by joining together thousands of small. Molecular units known as monomers. The process of joining the molecules. Is called polymerisation and the number of these units in the long molecule. Is known as the degree of polymerisation. The names of many polymers. Coupling agents are added to improve the bonding of the plastic to inorganic filler materials, such as glass fibres. A variety of silanes and titanates are used for this purpose. Lubri...
plasticsmanufactur.blogspot.com
PLASTICS MANUFACTURING: Thermosetting Plastics
http://plasticsmanufactur.blogspot.com/2011/11/thermosetting-plastics.html
Monday, November 14, 2011. This type of behaviour is analogous to boiling an egg. Once the egg has cooled and is hard, it cannot be softened again by the application of heat. Since the cross-linking of molecules is by strong chemical bonds,. Thermosetting materials are characteristically quite rigid materials and their mechanical properties are not heat sensitive. Examples of thermosets are phenol formaldehyde, melamine formaldehyde, urea formaldehyde, epoxies and some polyesters. Posted by Design 3dmax.
plasticsmanufactur.blogspot.com
PLASTICS MANUFACTURING: Syndiotactic Polystyrene (SPS
http://plasticsmanufactur.blogspot.com/2011/09/syndiotactic-polystyrene-sps.html
Monday, September 19, 2011. Syndiotactic polystyrene is a semicrystalline polymer and is produced via metallocenecatalyzed polymerization of styrene.21 By comparison to general-purpose, amorphous polystyrene (PS, HIPS), SPS has tereoregularity in its structure, which facilitates crystallization. In SPS the phenyl groups alternate above and below the polymer chain. Hence SPS has a high crystalline melt point and good chemical resistance. Edward N. Peters. Selkirk, New York. Edited by Myer Kutz. Plastic ma...
materialselection.blogspot.com
MATERIALS SELECTION: Devices to open corked bottles
http://materialselection.blogspot.com/2011/04/devices-to-open-corked-bottles.html
Devices to open corked bottles. Wine in a corked bottle’ (Figure 2.6) and one might add, ‘with convenience, at modest cost, and without contaminating the wine’. Five concepts for doing this are shown in Figure 2.7. In sequence, they are to remove the cork by axial traction (= pulling); to remove it by shear tractions; to push it out from below; to pulverize it; and to by-pass it altogether - by knocking the neck off the bottle, perhaps. MATERIALS SELECTION IN MECHANICAL DESIGN. MICHAEL F. ASHBY. Sweeping...