STRUCTRAL APPLICATION OF SMART MATERIALS presented by: Ashok kumar singh INDEX : 1. INTRODUCTION 2. WHAT ARE THE SMART MATERIALS? 3. SHAPE MEMORY ALLOYS (SMA) 4. CARBON FIBER REINFORCED CONCRETE (CFRC) 5. CONCLUSION 6. ACKNOWLEDGEMENT 7. REFERENCES 1. INTRODUCTION The development
Premium Concrete Tensile strength
SMART MATERIALS 1. Introduction The primary characteristic of a ‘‘smart material’’ is that it has the ability to respond to external stimuli in a technically useful and technically controlled way. The words ‘‘technically useful’’ and ‘‘technically controlled’’ are emphasized since all materials respond to external stimuli of some sort or other (as a simple example‚ all materials respond to temperature by changing their volume)‚ however‚ to be considered a ‘‘smart material’’ the response must
Premium
three sections; * Cash / lobby * Assembling station / supplying * Kitchen This is basic structure used in every KFC outlet * The raw materials for the restaurant The KFC has a central ware house in Pune that supplies all the raw materials for the kitchen and other utility things for the restaurant. The raw material / food material for the kitchen is then stored in a centralized deep freeze in The Prozone Mall. This deep freeze has an area of 800 sq. Ft. * Placing order for
Premium Material Raw material Materials
“SMART MATERIALS” ABSTRACT The world has undergone two materials ages‚ the plastics age and the composite age‚ during the past centuries. In the midst of these two ages a new era has developed. This is the smart materials era. According to early definitions‚ smart materials are materials that respond to their environments in a timely manner. The definition of smart materials has been expanded to materials that receive‚ transmit or process a stimulus and respond
Premium
Timeline of materials technology BC • 29‚000–25‚000 BC – First pottery appears • 3rd millennium BC – Copper metallurgy is invented and copper is used for ornamentation • 2nd millennium BC – Bronze is used for weapons and armour • 16th century BC – The Hittites develop crude iron metallurgy • 13th century BC – Invention of steel when iron and charcoal are combined properly • 10th century BC – Glass production begins in ancient Near East • 1st millennium BC – Pewter beginning to be used in
Premium Materials science Metal Centuries
and is an ideal fiber for creating high-quality clothing. Here are a few facts about why Peruvian pima cotton is an excellent choice for beautiful clothing. Very Soft Peruvian pima cotton is exceptionally soft‚ which makes it an irresistible material for clothing. Peruvian pima cotton is harvested by hand in order to keep out impurities‚ which adds to the overall softness of cloth made from Peruvian pima cotton. Creates a Durable Fabric Because Peruvian pima cotton has such a long
Premium Cotton Textile Fiber
• Legibility Counters: open and wide. x-height: high (61%)‚ especially for a serif typeface. Width and weight: Compared with other serif typefaces‚ Garamond is relatively a narrow (103%) and light (18%‚ 7%) type‚ which likely contributes to its being so eco-friendly when printed. The result is that it fit more letters on a page and the page will still look light. Distinctions: the original Garamond was created using a brush‚ and this is apparent in letterforms. It is easy to see there is a great
Premium Marketing Fiber Tensile strength
List………………………………………………………….27 Assembly Structure……………………………………………….29 Drawings………………………………………………………….32 TM HOVERCRAFT CONSTRUCTION MANUAL DiscoverHover www.discoverhover.org The World Hovercraft Organization’s International School Hovercraft Program All Material c 2003 World Hovercraft Organization All Rights Reserved www.worldhovercraft.org Hello Hovercraft Constructor: You have selected a project which will change your life. Building the DiscoverHover One presents opportunities to experience many new
Premium Composite material Epoxy
Hounsfeild Tensometer Torsion Tensile Tester Vickers Hardness Tester. Summery introduction This project will go into depth of the usage of material selection. After being paired with a fellow student we were given the task of testing 0.1% Carbon Steel‚ 0.4% heat treated steel along with a unknown specimen. To test these materials I will be using 4 types of methods Visual Inspection Hounsfeild Tensometer Torsion Tensile Tester Vickers Hardness Tester. Visual test While
Premium Tensile strength Hardness Rockwell scale
Faculty of Science and Engineering Department of Mechanical‚ Aeronautical and Biomedical Engineering Nano-scratch testing of Composite Materials Author Mohamed Gouse Interim Report (inc. Literature review)‚ submitted as part of the M.Eng. in Aeronautical Engineering It is hereby declared that this report is entirely my own work‚ unless otherwise stated‚ and that all sources of information have been properly acknowledged and referenced
Premium Finite element method