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8.422 Atomic and Optical Physics II (MIT) 8.422 Atomic and Optical Physics II (MIT)
Description
This is the second of a two-semester subject sequence beginning with Atomic and Optical Physics I (8.421) that provides the foundations for contemporary research in selected areas of atomic and optical physics. Topics covered include non-classical states of light, multi-photon processes, coherence, trapping and cooling, atomic interactions, and experimental methods. This is the second of a two-semester subject sequence beginning with Atomic and Optical Physics I (8.421) that provides the foundations for contemporary research in selected areas of atomic and optical physics. Topics covered include non-classical states of light, multi-photon processes, coherence, trapping and cooling, atomic interactions, and experimental methods.Subjects
atomic | atomic | optical physics | optical physics | Non-classical states of light | Non-classical states of light | squeezed states | squeezed states | multi-photon processes | multi-photon processes | Raman scattering | Raman scattering | coherence | coherence | level crossings | level crossings | quantum beats | quantum beats | double resonance | double resonance | superradiance | superradiance | trapping and cooling | trapping and cooling | light forces | light forces | laser cooling | laser cooling | atom optics | atom optics | spectroscopy of trapped atoms and ions | spectroscopy of trapped atoms and ions | atomic interactions | atomic interactions | classical collisions | classical collisions | quantum scattering theory | quantum scattering theory | ultracold collisions | ultracold collisions | experimental methods | experimental methodsLicense
Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from
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This course integrates studies of engineering sciences, reactor physics and safety assessment into nuclear power plant design. Topics include materials issues in plant design and operations, aspects of thermal design, fuel depletion and fission-product poisoning, and temperature effects on reactivity, safety considerations in regulations and operations, such as the evolution of the regulatory process, the concept of defense in depth, General Design Criteria, accident analysis, probabilistic risk assessment, and risk-informed regulations.Technical RequirementsSpecial software is required to use some of the files in this course: .exe and .zip. The .in files are input data files. This course integrates studies of engineering sciences, reactor physics and safety assessment into nuclear power plant design. Topics include materials issues in plant design and operations, aspects of thermal design, fuel depletion and fission-product poisoning, and temperature effects on reactivity, safety considerations in regulations and operations, such as the evolution of the regulatory process, the concept of defense in depth, General Design Criteria, accident analysis, probabilistic risk assessment, and risk-informed regulations.Technical RequirementsSpecial software is required to use some of the files in this course: .exe and .zip. The .in files are input data files.Subjects
nuclear reactor | nuclear reactor | nuclear power | nuclear power | NRC | NRC | PWR | PWR | pressurized water reactor | pressurized water reactor | GFR | GFR | nuclear safety | nuclear safety | meltdown | meltdown | nuclear risk | nuclear risk | PRA | PRA | probabalistic risk assessment | probabalistic risk assessment | risk assessment | risk assessment | thermal | thermal | hydraulic | hydraulic | nuclear fuel | nuclear fuel | nuclear waste | nuclear waste | accident | accident | radiation | radiation | radioactivity | radioactivity | nuclear plant | nuclear plant | cooling | cooling | seabrook | seabrook | fission | fission | uranium | uranium | half-life | half-life | plutonium | plutoniumLicense
Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from
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See all metadata4.401 Introduction to Building Technology (MIT) 4.401 Introduction to Building Technology (MIT)
Description
The course aims at providing a fundamental understanding of the physics related to buildings and to propose an overview of the various issues that have to be adequately combined to offer the occupants a physical, functional and psychological well-being. Students will be guided through the different components, constraints and systems of a work of architecture. These will be examined both independently and in the manner in which they interact and affect one another. The course aims at providing a fundamental understanding of the physics related to buildings and to propose an overview of the various issues that have to be adequately combined to offer the occupants a physical, functional and psychological well-being. Students will be guided through the different components, constraints and systems of a work of architecture. These will be examined both independently and in the manner in which they interact and affect one another.Subjects
building technology | building technology | envelope | envelope | interior | interior | equipment | equipment | technological constraints | technological constraints | architectural design | architectural design | climate | climate | construction methods and issues | construction methods and issues | heat and air flow | heat and air flow | thermal comfort and insulation | thermal comfort and insulation | passive and active heating and cooling | passive and active heating and cooling | natural and electric lighting | natural and electric lighting | visual comfort | visual comfortLicense
Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from
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This sophomore-level course is a project-oriented introduction to the principles and practice of engineering design. Design projects and exercises are chosen that relate to the built and natural environments. Emphasis is placed on achieving function and sustainability through choice of materials and processes, compatibility with natural cycles, and the use of active or adaptive systems. The course also encourages development of hands-on skills, teamwork, and communication; exercises and projects engage students in the building, implementation, and testing of their designs. This sophomore-level course is a project-oriented introduction to the principles and practice of engineering design. Design projects and exercises are chosen that relate to the built and natural environments. Emphasis is placed on achieving function and sustainability through choice of materials and processes, compatibility with natural cycles, and the use of active or adaptive systems. The course also encourages development of hands-on skills, teamwork, and communication; exercises and projects engage students in the building, implementation, and testing of their designs.Subjects
Design | Design | water resources | water resources | water treatment | water treatment | structures | structures | structural design | structural design | fabrication | fabrication | testing | testing | hardware | hardware | laboratory experiments | laboratory experiments | pH | pH | neutralization | neutralization | hydraulic conductivity | hydraulic conductivity | porosity | porosity | truss | truss | tension | tension | beam bending | beam bending | beam buckling | beam buckling | thermal design | thermal design | heating | heating | cooling | cooling | thermal infrared camera | thermal infrared camera | thermal IR imaging | thermal IR imaging | heat loss | heat lossLicense
Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from
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See all metadata8.422 Atomic and Optical Physics II (MIT)
Description
This is the second of a two-semester subject sequence beginning with Atomic and Optical Physics I (8.421) that provides the foundations for contemporary research in selected areas of atomic and optical physics. Topics covered include non-classical states of light, multi-photon processes, coherence, trapping and cooling, atomic interactions, and experimental methods.Subjects
atomic | optical physics | Non-classical states of light | squeezed states | multi-photon processes | Raman scattering | coherence | level crossings | quantum beats | double resonance | superradiance | trapping and cooling | light forces | laser cooling | atom optics | spectroscopy of trapped atoms and ions | atomic interactions | classical collisions | quantum scattering theory | ultracold collisions | experimental methodsLicense
Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from
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See all metadata16.512 Rocket Propulsion (MIT) 16.512 Rocket Propulsion (MIT)
Description
This class focuses on chemical rocket propulsion systems for launch, orbital, and interplanetary flight. It studies the modeling of solid, liquid-bipropellant, and hybrid rocket engines. Thermochemistry, prediction of specific impulse, and nozzle flows including real gas and kinetic effects will also be covered. Other topics to be covered include structural constraints, propellant feed systems, turbopumps, and combustion processes in solid, liquid, and hybrid rockets. This class focuses on chemical rocket propulsion systems for launch, orbital, and interplanetary flight. It studies the modeling of solid, liquid-bipropellant, and hybrid rocket engines. Thermochemistry, prediction of specific impulse, and nozzle flows including real gas and kinetic effects will also be covered. Other topics to be covered include structural constraints, propellant feed systems, turbopumps, and combustion processes in solid, liquid, and hybrid rockets.Subjects
chemical rocket propulsion systems for launch | chemical rocket propulsion systems for launch | orbital | orbital | and interplanetary flight | and interplanetary flight | Modeling of solid propellant | Modeling of solid propellant | liquid-bipropellant | liquid-bipropellant | hybrid rocket engines | hybrid rocket engines | thermochemistry | thermochemistry | prediction of specific impulse | prediction of specific impulse | nozzle flows including real gas and kinetic effects | nozzle flows including real gas and kinetic effects | structural constraints | structural constraints | propellant feed systems | propellant feed systems | turbopumps | turbopumps | combustion processes in solid | combustion processes in solid | liquid | liquid | and hybrid rockets | and hybrid rockets | cooling | cooling | heat sink | heat sink | ablative | ablativeLicense
Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from
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This course integrates studies of engineering sciences, reactor physics and safety assessment into nuclear power plant design. Topics include materials issues in plant design and operations, aspects of thermal design, fuel depletion and fission-product poisoning, and temperature effects on reactivity, safety considerations in regulations and operations, such as the evolution of the regulatory process, the concept of defense in depth, General Design Criteria, accident analysis, probabilistic risk assessment, and risk-informed regulations. This course integrates studies of engineering sciences, reactor physics and safety assessment into nuclear power plant design. Topics include materials issues in plant design and operations, aspects of thermal design, fuel depletion and fission-product poisoning, and temperature effects on reactivity, safety considerations in regulations and operations, such as the evolution of the regulatory process, the concept of defense in depth, General Design Criteria, accident analysis, probabilistic risk assessment, and risk-informed regulations.Subjects
nuclear reactor | nuclear reactor | nuclear power | nuclear power | NRC | NRC | PWR | PWR | pressurized water reactor | pressurized water reactor | GFR | GFR | LWR | LWR | light water reactor | light water reactor | nuclear safety | nuclear safety | meltdown | meltdown | nuclear risk | nuclear risk | PRA | PRA | probabalistic risk assessment | probabalistic risk assessment | risk assessment | risk assessment | thermal | thermal | hydraulic | hydraulic | nuclear fuel | nuclear fuel | nuclear waste | nuclear waste | accident | accident | radiation radioactivity | radiation radioactivity | nuclear plant | nuclear plant | cooling Seabrook | cooling Seabrook | fission | fission | uranium | uranium | half-life | half-life | plutonium | plutonium | economics of nuclear power | economics of nuclear power | materials slection | materials slection | IRIS | IRIS | materials selection | materials selectionLicense
Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see http://ocw.mit.edu/terms/index.htmSite sourced from
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See all metadataLooking West along the River Tyne, 1978 Looking West along the River Tyne, 1978
Description
Subjects
road | road | bridge | bridge | roof | roof | shadow | shadow | blur | blur | industry | industry | window | window | water | water | glass | glass | wall | wall | buildings | buildings | river | river | landscape | landscape | grid | grid | daylight | daylight | interesting | interesting | construction | construction | industrial | industrial | unitedkingdom | unitedkingdom | bridges | bridges | aerialviews | aerialviews | structure | structure | gateshead | gateshead | tynebridge | tynebridge | frame | frame | land | land | vegetation | vegetation | change | change | unusual | unusual | railways | railways | tyneside | tyneside | development | development | swingbridge | swingbridge | centralstation | centralstation | newcastleupontyne | newcastleupontyne | fascinating | fascinating | quayside | quayside | digitalimage | digitalimage | metrobridge | metrobridge | rivertyne | rivertyne | aerialphotograph | aerialphotograph | highlevelbridge | highlevelbridge | aerialphotographs | aerialphotographs | colourphotography | colourphotography | elswick | elswick | redheughbridge | redheughbridge | northeastengland | northeastengland | westroad | westroad | dunstonstaithes | dunstonstaithes | april1978 | april1978 | scotswoodroad | scotswoodroad | colourphotograph | colourphotograph | turnersltd | turnersltd | newcastleincolour | newcastleincolour | stellapowerstationcoolingtowers | stellapowerstationcoolingtowersLicense
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See all metadata8.422 Atomic and Optical Physics II (MIT)
Description
This is the second of a two-semester subject sequence beginning with Atomic and Optical Physics I (8.421) that provides the foundations for contemporary research in selected areas of atomic and optical physics. Topics covered include non-classical states of light, multi-photon processes, coherence, trapping and cooling, atomic interactions, and experimental methods.Subjects
atomic | optical physics | Non-classical states of light | squeezed states | multi-photon processes | Raman scattering | coherence | level crossings | quantum beats | double resonance | superradiance | trapping and cooling | light forces | laser cooling | atom optics | spectroscopy of trapped atoms and ions | atomic interactions | classical collisions | quantum scattering theory | ultracold collisions | experimental methodsLicense
Content within individual OCW courses is (c) by the individual authors unless otherwise noted. MIT OpenCourseWare materials are licensed by the Massachusetts Institute of Technology under a Creative Commons License (Attribution-NonCommercial-ShareAlike). For further information see https://ocw.mit.edu/terms/index.htmSite sourced from
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See all metadataTALAT Lecture 3100: Machining of Products
Description
In general, aluminium alloys have excellent machining properties compared with other common engineering metals.The lecture describes the machinability of aluminium alloys, the necessary tools and equipments in order to obtain optimum results. General background in production engineering and machine tools is assumed.Subjects
aluminium | aluminum | european aluminium association | EAA | Training in Aluminium Application Technologies | training | metallurgy | technology | lecture | machining | forming | machinability | aluminium chips | surface | tool wear | cutting force | classification | cutting materials | high-speed steel | carbide-tipped tools | diamond | tool design | milling tools | drills | saws | circular saws | wrought alloys | casting alloys | machines | drives | rigidity | spindle construction | control | clamping tools | gripping tools | cooling lubricants | cutting fluids | chip removal | equipment | corematerials | ukoerLicense
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See all metadataFe, C 0.8 (wt%), eutectoid transformation - pearlite (coarse)
Description
This steel is of the eutectoid composition. Once the temperature is lowered below the eutectoid temperature the steel becomes simultaneously supersaturated with both ferrite and cementite. A eutectoid transformation results (? to ? + Fe3C). The resultant microstructure, known as pearlite, comprises lamellae of cementite (dark) embedded in ferrite (white). The platelets are parallel to each other and do not follow a specific crystallographic direction.Each pearlite colony is made up of a number of subgrains. Thus each pearlite colony consists of two interpenetrating single crystals having an orientation relationship with respect to each other and with respect to the austenite grain they grow from, but not with respect to the austenite grain they have grown into. Changes in the apparent inSubjects
alloy | austenite | carbon | cementite | eutectoid reaction | ferrite | iron | lamella | metal | pearlite | steel | supercooling | DoITPoMS | University of Cambridge | micrograph | corematerials | ukoerLicense
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See all metadataFe, C 0.8 (wt%), eutectoid transformation - pearlite (coarse)
Description
This steel is of the eutectoid composition. Once the temperature is lowered below the eutectoid temperature the steel becomes simultaneously supersaturated with both ferrite and cementite. A eutectoid transformation results (? to ? + Fe3C). The resultant microstructure, known as pearlite, comprises lamellae of cementite (dark) embedded in ferrite (white). The platelets are parallel to each other and do not follow a specific crystallographic direction.Each pearlite colony is made up of a number of subgrains. Thus each pearlite colony consists of two interpenetrating single crystals having an orientation relationship with respect to each other and with respect to the austenite grain they grow from, but not with respect to the austenite grain they have grown into. Changes in the apparent inSubjects
alloy | austenite | carbon | cementite | eutectoid reaction | ferrite | iron | lamella | metal | pearlite | steel | supercooling | DoITPoMS | University of Cambridge | micrograph | corematerials | ukoerLicense
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See all metadataFe, C 0.8 (wt%), eutectoid transformation - pearlite (coarse)
Description
This steel is of the eutectoid composition. Once the temperature is lowered below the eutectoid temperature the steel becomes simultaneously supersaturated with both ferrite and cementite. A eutectoid transformation results (? to ? + Fe3C). The resultant microstructure, known as pearlite, comprises lamellae of cementite (dark) embedded in ferrite (white). The platelets are parallel to each other and do not follow a specific crystallographic direction. Each pearlite colony is made up of a number of subgrains. Thus each pearlite colony consists of two interpenetrating single crystals having an orientation relationship with respect to each other and with respect to the austenite grain they grow from, but not with respect to the austenite grain they have grown into. Changes in the apparentSubjects
alloy | austenite | carbon | cementite | eutectoid reaction | ferrite | iron | lamella | metal | pearlite | steel | supercooling | DoITPoMS | University of Cambridge | micrograph | corematerials | ukoerLicense
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See all metadataShape memory effect: Ferris wheel close up on cooling
Description
The shape memory effect: close up of the cooling of the springs in a Ferris wheel. From TLP: Superelasticity and Shape Memory Alloys, http://www.doitpoms.ac.uk/tlplib/superelasticity/shape_memory2.phpSubjects
superplacticity | shape memory effect | cooling | DoITPoMS | University of Cambridge | video | corematerials | ukoerLicense
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See all metadataAtomic Structure and Microstructure of Materials: Solidification of Alloys
Description
This set of animations covers different aspects of solidification, it includes interactive phase diagrams. From TLP: Solidification of AlloysSubjects
solidification | solute | partitioning | steady state | undercooling | dendrites | schiel | phase diagram | DoITPoMS | University of Cambridge | animation | corematerials | ukoerLicense
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See all metadataFabrication and Processing of Materials: Casting
Description
This set of animations demonstrates examples of die-casting, sand-casting and continuous casting processes. It includes a user controlled Newtonian cooling simulation. From TLP: CastingSubjects
casting | Biot number | solute | solute partitioning | dendrite | solidification | newtonian cooling | segregation | Chill zone | Columnar zone | Equiaxed zone | sand-casting | die-casting | DoITPoMS | University of Cambridge | animation | corematerials | ukoerLicense
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See all metadataTALAT Lecture 3100: Machining of Products
Description
In general, aluminium alloys have excellent machining properties compared with other common engineering metals.The lecture describes the machinability of aluminium alloys, the necessary tools and equipments in order to obtain optimum results. General background in production engineering and machine tools is assumed.Subjects
aluminium | aluminum | european aluminium association | eaa | talat | training in aluminium application technologies | training | metallurgy | technology | lecture | machining | forming | machinability | aluminium chips | surface | tool wear | cutting force | classification | cutting materials | high-speed steel | carbide-tipped tools | diamond | tool design | milling tools | drills | saws | circular saws | wrought alloys | casting alloys | machines | drives | rigidity | spindle construction | control | clamping tools | gripping tools | cooling lubricants | cutting fluids | chip removal | equipment | corematerials | ukoer | Engineering | H000License
Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/Site sourced from
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See all metadataFe, C 0.8 (wt%), eutectoid transformation - pearlite (coarse)
Description
This steel is of the eutectoid composition. Once the temperature is lowered below the eutectoid temperature the steel becomes simultaneously supersaturated with both ferrite and cementite. A eutectoid transformation results (γ to α + Fe3C). The resultant microstructure, known as pearlite, comprises lamellae of cementite (dark) embedded in ferrite (white). The platelets are parallel to each other and do not follow a specific crystallographic direction.Each pearlite colony is made up of a number of subgrains. Thus each pearlite colony consists of two interpenetrating single crystals having an orientation relationship with respect to each other and with respect to the austenite grain they grow from, but not with respect to the austenite grain they have grown into. Changes in the apparent inSubjects
alloy | austenite | carbon | cementite | eutectoid reaction | ferrite | iron | lamella | metal | pearlite | steel | supercooling | doitpoms | university of cambridge | micrograph | corematerials | ukoer | Engineering | H000License
Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/Site sourced from
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See all metadataFe, C 0.8 (wt%), eutectoid transformation - pearlite (coarse)
Description
This steel is of the eutectoid composition. Once the temperature is lowered below the eutectoid temperature the steel becomes simultaneously supersaturated with both ferrite and cementite. A eutectoid transformation results (γ to α + Fe3C). The resultant microstructure, known as pearlite, comprises lamellae of cementite (dark) embedded in ferrite (white). The platelets are parallel to each other and do not follow a specific crystallographic direction.Each pearlite colony is made up of a number of subgrains. Thus each pearlite colony consists of two interpenetrating single crystals having an orientation relationship with respect to each other and with respect to the austenite grain they grow from, but not with respect to the austenite grain they have grown into. Changes in the apparent inSubjects
alloy | austenite | carbon | cementite | eutectoid reaction | ferrite | iron | lamella | metal | pearlite | steel | supercooling | doitpoms | university of cambridge | micrograph | corematerials | ukoer | Engineering | H000License
Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/Site sourced from
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See all metadataFe, C 0.8 (wt%), eutectoid transformation - pearlite (coarse)
Description
This steel is of the eutectoid composition. Once the temperature is lowered below the eutectoid temperature the steel becomes simultaneously supersaturated with both ferrite and cementite. A eutectoid transformation results (γ to α + Fe3C). The resultant microstructure, known as pearlite, comprises lamellae of cementite (dark) embedded in ferrite (white). The platelets are parallel to each other and do not follow a specific crystallographic direction. Each pearlite colony is made up of a number of subgrains. Thus each pearlite colony consists of two interpenetrating single crystals having an orientation relationship with respect to each other and with respect to the austenite grain they grow from, but not with respect to the austenite grain they have grown into. Changes in the apparent iSubjects
alloy | austenite | carbon | cementite | eutectoid reaction | ferrite | iron | lamella | metal | pearlite | steel | supercooling | doitpoms | university of cambridge | micrograph | corematerials | ukoer | Engineering | H000License
Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/Site sourced from
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See all metadataShape memory effect: Ferris wheel close up on cooling
Description
The shape memory effect: close up of the cooling of the springs in a Ferris wheel. From TLP: Superelasticity and Shape Memory Alloys, http://www.doitpoms.ac.uk/tlplib/superelasticity/shape_memory2.phpSubjects
superplacticity | shape memory effect | cooling | doitpoms | university of cambridge | video | corematerials | ukoer | Engineering | H000License
Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/Site sourced from
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See all metadataAtomic Structure and Microstructure of Materials: Solidification of Alloys
Description
This set of animations covers different aspects of solidification, it includes interactive phase diagrams. From TLP: Solidification of AlloysSubjects
solidification | solute | partitioning | steady state | undercooling | dendrites | schiel | phase diagram | doitpoms | university of cambridge | animation | corematerials | ukoer | Engineering | H000License
Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/Site sourced from
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See all metadataFabrication and Processing of Materials: Casting
Description
This set of animations demonstrates examples of die-casting, sand-casting and continuous casting processes. It includes a user controlled Newtonian cooling simulation. From TLP: CastingSubjects
casting | biot number | solute | solute partitioning | dendrite | solidification | newtonian cooling | segregation | chill zone | columnar zone | equiaxed zone | sand-casting | die-casting | doitpoms | university of cambridge | animation | corematerials | ukoer | Engineering | H000License
Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales Attribution-Noncommercial-Share Alike 2.0 UK: England & Wales http://creativecommons.org/licenses/by-nc-sa/2.0/uk/ http://creativecommons.org/licenses/by-nc-sa/2.0/uk/Site sourced from
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Subjects
pink | brown | abstract | colour | industry | paper | advertising | interesting | industrial | box | mark | nursery | toilet | social | wear | communication | cardboard | 1d | directions | letter | packaging | packet | unusual | ww1 | product | household | firstworldwar | commercialism | atherton | cooling | manufacturer | englanduk | 191418 | salesgimmick | fullersearth | wormseed | worlife | originalprice | householdproduct | headandstomachpills | firstworldwarproductpackaging | teethsoothing | childrenspowders | stothertsltdLicense
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Box of Fullers Earth for nursery and toilet use, made of cardboard and paper in green, white and red. Original price, 1d. Length: 69 mm Width: 52 mm Depth: 23 mm Manufactured by Stotherts Ltd, Atherton, England, UK, 1914 - 18. Copyright Statement: (Copyright) We're happy for you to share these digital images within the spirit of The Commons. Please cite 'Tyne & Wear Archives & Museums' when reusing. Certain restrictions on high quality reproductions and commercial use of the original physical version apply though; if you're unsure please email sarah.younas@twmuseums.org.ukSubjects
firstworldwar | ww1 | worlife | packaging | household | advertising | firstworldwarproductpackaging | salesgimmick | product | householdproduct | communication | social | abstract | colour | letter | industrial | industry | unusual | interesting | fullersearth | box | cardboard | nursery | toilet | paper | originalprice | 1d | manufacturer | stothertsltd | atherton | englanduk | 191418 | commercialism | headandstomachpills | childrenspowders | directions | cooling | teethsoothing | pink | brown | wormseed | mark | wear | packetLicense
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Tyne & Wear Archives & Museums | FlickRAttribution
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