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Materials

- Engineering, Science, Processing and Design

  • Format
  • Bog, paperback
  • Engelsk

Beskrivelse

Materials: Engineering, Science, Processing and Design is the essential materials engineering text and resource for students developing skills and understanding of materials properties and selection for engineering applications. Taking a unique design-led approach that is broader in scope than other texts, Materials meets the curriculum needs of a wide variety of courses in the materials and design field, including introduction to materials science and engineering, engineering materials, materials selection and processing, and behavior of materials. This new edition retains its design-led focus and strong emphasis on visual communication while expanding its coverage of the physical basis of material properties, and process selection.

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Detaljer
Størrelse og vægt
  • Vægt1720 g
  • coffee cup img
    10 cm
    book img
    19,1 cm
    23,5 cm

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    Stress Metal Screening Radiation Classification Consumption Documentation Environment Fatigue Information management Manufacturing processes Materials Microstructure Oxidation Plasticity Properties Processing Electrical properties Superconductivity Friction Solidification Magnetic properties Organic solvents Superconducting magnets Diffusion Thermal conductivity Dielectrics Dislocations Vibration Magnetic materials Fracture Hardness Mechanical properties Bearings Corrosion Acids Refraction Optical materials Thermal properties Creep Density Ductility Flammability Foams Friction welding Thermal diffusivity Conductors Sustainability Brass Weight Ferrite Translation Optical physics ceramic Phase diagram Embodied Energy Metal forming Insulators Eco-Design Atomic Bonding Design process Thermal design Electromagnetic radiation Optical devices Yielding Design strategy Processes Functional properties Composites Crystal structure Fracture Toughness Durability Toughness Temperature-dependent properties Stiffness Thermal physics Ferrous alloys Metals processing Tribological Properties Polarisation Additive Manufacturing Specific heat capacity Cyclic Loading Manufacturing Young's Modulus Lattice Wear Surface treatment Carbon footprint Cracks Modulus Strength Rémanence Ranking Heat Conduction Phase transformation Piezoelectric Corrosion resistance Thermal expansion Pyroelectric Shear modulus Yield strength Endurance Limit Alkalis Atomic packing Austenite field Body-centred cubic Close-packed hexagonal Close-packed plane Design-limiting properties Deformation mechanism maps Bulk Modulus Computer-aided information management Elastic moduli engineering disasters Diffusional flow damping coefficient Face-centred cubic Embodiment Stage Electrical Resistivity Creep-resistant materials Fracture-limited design Creep behaviour Flexural Rigidity Cyclic damage Cyclic failure Design requirements Hardening mechanisms High-temperature design Elastic limit joining processes elastic design Material life cycle Managing friction Fibre production Material compatibility Material index Friction Coefficient Hard magnets Hybrid processing non-metals processing Process tree Process selection physical properties Process–property interaction Property charts Process cost Interstitial space Semiconduction shaping processes Soft magnets Strength-limited design Stiffness-limited design Thermal activation strain Unit Cell Materials tree Mechanics of fracture Magnetisation Process attributes Miller Indices Shape factor Plastic zone Target values Recycling energy
    Machine Name: SAXO083