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Using composite materials to replace bone Using composite materials to replace bone

Description

For the past ten years, Professor Rudd and his team have been researching degradable polymers that would be as strong as the steel plates, but could be absorbed by the body, thus eliminating the need for secondary surgery. For the past ten years, Professor Rudd and his team have been researching degradable polymers that would be as strong as the steel plates, but could be absorbed by the body, thus eliminating the need for secondary surgery. In this podcast, Professor Chris Rudd, Dean of the faculty of Engineering at the University of Nottingham, describes his work with composite materials in the car industry and how it can be applied to the field of medicine. Traditionally, patients who have lost bone in an accident or have had bone removed due to cancer have had to endure two very long and very painful operations. One operation to attach steel plates to the bone, and a second operation once the bone has healed, to remove them. For the past ten years, Professor Rudd and his team have been researching degradable polymers that would be as strong as the steel plates, but could be absorbed by the body, thus eliminating the need for secondary surgery. In this podcast, Professor Chris Rudd, Dean of the faculty of Engineering at the University of Nottingham, describes his work with composite materials in the car industry and how it can be applied to the field of medicine. Traditionally, patients who have lost bone in an accident or have had bone removed due to cancer have had to endure two very long and very painful operations. One operation to attach steel plates to the bone, and a second operation once the bone has healed, to remove them. For the past ten years, Professor Rudd and his team have been researching degradable polymers that would be as strong as the steel plates, but could be absorbed by the body, thus eliminating the need for secondary surgery.

Subjects

UNow | UNow | Bone replacement | Bone replacement | Degradable polymers in the body | Degradable polymers in the body | UKOER | UKOER

License

Except for third party materials (materials owned by someone other than The University of Nottingham) and where otherwise indicated, the copyright in the content provided in this resource is owned by The University of Nottingham and licensed under a Creative Commons Attribution-NonCommercial-ShareAlike UK 2.0 Licence (BY-NC-SA) Except for third party materials (materials owned by someone other than The University of Nottingham) and where otherwise indicated, the copyright in the content provided in this resource is owned by The University of Nottingham and licensed under a Creative Commons Attribution-NonCommercial-ShareAlike UK 2.0 Licence (BY-NC-SA)

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3.051J Materials for Biomedical Applications (MIT) 3.051J Materials for Biomedical Applications (MIT)

Description

This class provides an introduction to the interactions between cells and the surfaces of biomaterials. The course covers: surface chemistry and physics of selected metals, polymers, and ceramics; surface characterization methodology; modification of biomaterials surfaces; quantitative assays of cell behavior in culture; biosensors and microarrays; bulk properties of implants; and acute and chronic response to implanted biomaterials. General topics include biosensors, drug delivery, and tissue engineering. This class provides an introduction to the interactions between cells and the surfaces of biomaterials. The course covers: surface chemistry and physics of selected metals, polymers, and ceramics; surface characterization methodology; modification of biomaterials surfaces; quantitative assays of cell behavior in culture; biosensors and microarrays; bulk properties of implants; and acute and chronic response to implanted biomaterials. General topics include biosensors, drug delivery, and tissue engineering.

Subjects

interactions between proteins | cells and surfaces of biomaterials | interactions between proteins | cells and surfaces of biomaterials | surface chemistry and physics of metals | polymers and ceramics | surface chemistry and physics of metals | polymers and ceramics | Surface characterization methodology | Surface characterization methodology | Quantitative assays of cell behavior in culture | Quantitative assays of cell behavior in culture | Organ replacement therapies | Organ replacement therapies | Acute and chronic response to implanted biomaterials | Acute and chronic response to implanted biomaterials | biosensors | drug delivery and tissue engineering | biosensors | drug delivery and tissue engineering

License

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.htm

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Sistemas Operativos I Sistemas Operativos I

Description

La asignatura de Sistemas Operativos I se imparte en el segundo cuatrimestre del segundo curso y tiene asignados 6 créditos troncales (3 teóricos + 3 prácticos). Los descriptores según BOE de esta asignatura son los siguientes: Organización, Estructura y Servicio de los Sistemas Operativos. Gestión y administración de memoria y de procesos. Gestión de entrada/salida. Sistema de ficheros. La asignatura de Sistemas Operativos I se imparte en el segundo cuatrimestre del segundo curso y tiene asignados 6 créditos troncales (3 teóricos + 3 prácticos). Los descriptores según BOE de esta asignatura son los siguientes: Organización, Estructura y Servicio de los Sistemas Operativos. Gestión y administración de memoria y de procesos. Gestión de entrada/salida. Sistema de ficheros.

Subjects

thread scheduling | thread scheduling | process | process | Arquitectura y Tecnología de Computadores | Arquitectura y Tecnología de Computadores | proceso | proceso | paginación | paginación | programmed I/O | programmed I/O | process scheduling | process scheduling | entrada/salida | entrada/salida | planificación de procesos | planificación de procesos | controlador | controlador | virtual memory | virtual memory | input/output | input/output | disk space managemente | disk space managemente | E/S dirigida por interrupciones | E/S dirigida por interrupciones | system call | system call | gestión de espacio en disco | gestión de espacio en disco | files | files | llamada al sistema | llamada al sistema | entrada salida programada | entrada salida programada | page replacement algorithms | page replacement algorithms | discos | discos | intercambio | intercambio | controller | controller | pages tables | pages tables | algoritmos de reemplazamiento de páginas | algoritmos de reemplazamiento de páginas | directorios | directorios | ficheros | ficheros | swapping | swapping | thread | thread | tabla de páginas | tabla de páginas | dispositivo | dispositivo | directories | directories | disks | disks | devices | devices | paging | paging | gestión de memoria | gestión de memoria | interrupt-driven I/O | interrupt-driven I/O | memoria virtual | memoria virtual | memory management | memory management

License

Copyright 2009, by the Contributing Authors http://creativecommons.org/licenses/by-nc-sa/3.0/

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3.051J Materials for Biomedical Applications (MIT) 3.051J Materials for Biomedical Applications (MIT)

Description

This course gives an introduction to the interactions between proteins, cells and surfaces of biomaterials. It includes surface chemistry and physics of selected metals, polymers and ceramics, modification of biomaterials surfaces, and surface characterization methodology; quantitative assays of cell behavior in culture and methods of statistical analysis; organ replacement therapies and acute and chronic response to implanted biomaterials. The course includes topics in biosensors, drug delivery and tissue engineering. This course gives an introduction to the interactions between proteins, cells and surfaces of biomaterials. It includes surface chemistry and physics of selected metals, polymers and ceramics, modification of biomaterials surfaces, and surface characterization methodology; quantitative assays of cell behavior in culture and methods of statistical analysis; organ replacement therapies and acute and chronic response to implanted biomaterials. The course includes topics in biosensors, drug delivery and tissue engineering.

Subjects

Interactions between proteins | Interactions between proteins | cells | cells | Surface chemistry and physics of metals | Surface chemistry and physics of metals | polymers and ceramics | polymers and ceramics | Surface characterization methodology | Surface characterization methodology | Quantitative assays of cell behavior | Quantitative assays of cell behavior | Organ replacement therapies | Organ replacement therapies | Acute and chronic response to implanted biomaterials | Acute and chronic response to implanted biomaterials | Biosensors | Biosensors | drug delivery and tissue engineering | drug delivery and tissue engineering | Interactions between proteins | cells | Interactions between proteins | cells | Surface chemistry and physics of metals | polymers and ceramics | Surface chemistry and physics of metals | polymers and ceramics | Biosensors | drug delivery and tissue engineering | Biosensors | drug delivery and tissue engineering | BE.340J | BE.340J | 3.051 | 3.051 | BE.340 | BE.340 | 20.340 | 20.340

License

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.htm

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20.441J Biomaterials-Tissue Interactions (MIT) 20.441J Biomaterials-Tissue Interactions (MIT)

Description

This course covers the principles of materials science and cell biology underlying the design of medical implants, artificial organs, and matrices for tissue engineering. Methods for biomaterials surface characterization and analysis of protein adsorption on biomaterials. Molecular and cellular interactions with biomaterials are analyzed in terms of unit cell processes, such as matrix synthesis, degradation, and contraction. Mechanisms underlying wound healing and tissue remodeling following implantation in various organs. Tissue and organ regeneration. Design of implants and prostheses based on control of biomaterials-tissue interactions. Comparative analysis of intact, biodegradable, and bioreplaceable implants by reference to case studies. Criteria for restoration of physiological funct This course covers the principles of materials science and cell biology underlying the design of medical implants, artificial organs, and matrices for tissue engineering. Methods for biomaterials surface characterization and analysis of protein adsorption on biomaterials. Molecular and cellular interactions with biomaterials are analyzed in terms of unit cell processes, such as matrix synthesis, degradation, and contraction. Mechanisms underlying wound healing and tissue remodeling following implantation in various organs. Tissue and organ regeneration. Design of implants and prostheses based on control of biomaterials-tissue interactions. Comparative analysis of intact, biodegradable, and bioreplaceable implants by reference to case studies. Criteria for restoration of physiological funct

Subjects

20.441 | 20.441 | 2.79 | 2.79 | 3.96 | 3.96 | HST.522 | HST.522 | medical implants | medical implants | tissue engineering | tissue engineering | unit cell process | unit cell process | wound healing | wound healing | joint replacement | joint replacement | extracellular matrix | extracellular matrix | biocompatibility | biocompatibility

License

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.htm

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'Kosmaj' afloat after launch

Description

?Kosmaj? afloat after launch by Sunderland Shipbuilders Ltd and the North Sands shipyard, 18 August 1977 (TWAM ref. DS.JLT/4/PH/2/7). The shipyard did a remarkable job of replacing the bottom structure of the vessel after much of it was destroyed by fire in March 1977. Tyne & Wear Archives is proud to present a selection of images from its Sunderland shipbuilding collections. The set has been produced to celebrate Sunderland History Fair on 7 June 2014. It's a reminder of the thousands of vessels launched on the River Wear and the many outstanding achievements of Sunderland?s shipyards and their workers. These photographs reflect Sunderland?s history of innovation in shipbuilding and marine engineering from the development of turret ships in the 1890s through to the design for SD14s in the 1960s. The Sunderland shipbuilding collections are full of fascinating stories. Some of these are represented in this set, such as the ?Rondefjell?, launched in two halves on the River Wear by John Crown & Sons Ltd and then joined together on the River Tyne. The set also shows the vital part that Sunderland?s shipbuilding industry played during the First World War. William Doxford & Sons Ltd built Royal Naval destroyers such as HMS Opal, which served in the Battle of Jutland, while other yards constructed cargo ships to help keep these shores supplied. (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 archives@twmuseums.org.uk

Subjects

sunderland | shipbuilding | shiplaunches | cargoship | northsandssunderland | shipyard | bulkcarrier | launch | maritimeheritage | colourphotograph | kosmaj | northsandsyard | riverwear | afloat | 18august1977 | bottomstructure | replacement | fire | march1977 | 7june2014 | industrial | marineengineering | supplies | construction | timber | water | river | frame | structure | platform | lightbulb | joinery | boxes | buildings | door | walls | roof | doorway | deck | flags | rope | letters | symbol | windy | porthole | panels | rail | accommodation | stern | aft | anchor | assembly | parts | workers | bars | bilge | block | bow | cargocontainers | deckhouse | hatchway | mast | outfit | debris | momentous | stark | unusual | goods | calm | still | electricalwire

License

No known copyright restrictions

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The wheelhouse on 'Nicola'

Description

View of wheelhouse on ?Nicola? the first SD14 to be built by Austin & Pickersgill at the Southwick shipyard, Sunderland (TWAM ref. DT.TUR/4/3732H). This set celebrates the ?Nicola?, the first in a long line of standard ships designed by the Sunderland shipyard of Austin & Pickersgill Ltd. The images document her construction from October 1967 through to her completion in February 1968. The shipbuilders commissioned the Newcastle-based firm Turners (Photography) Ltd to take weekly progress shots of the ?Nicola? and these images have given us a unique view of her development. She was the first SD14 to be completed (the name stands for ?Shelter Deck 14,000 tons deadweight?) and was designed as a replacement for the surviving ?Liberty ships?, built by American yards during the Second World War. Those Liberty ships had played a vital role in the Allied victory but by the 1960s they were fast approaching the end of their working lives. The SD14 developed by Austin & Pickersgill met the demand for economic and reliable cargo ships. The simplicity of the design meant that it could be marketed by the shipbuilders at a very competitive price. It?s success is reflected by the fact that over the course of 20 years 211 ships were built to the SD14 design by Austin Pickersgill and its licensees. Sunderland can be very proud of its remarkable shipbuilding and engineering history and the SD14 is one the City?s finest achievements. (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 archives@twmuseums.org.uk

Subjects

nicola | industry | austinpickersgillltd | sunderland | shipbuilding | sd14 | southwick | shipyard | riverwear | wheelhouse | cabin | ship | vessel | shipbuildingheritage | maritimeheritage | industrialheritage | abstract | colourphotograph | digitalimage | archives | documentation | northeastofengland | impressive | unitedkingdom | interesting | fascinating | unusual | steeringwheel | october1967february1968 | progress | progression | development | construction | structure | production | nicolathefirstsd14 | standardship | sunderlandshipyard | turnersphotographyltd | shelterdeck14000tonsdeadweight | libertyships | replacement | cargoship | economics | transportation | controls | components | window | glass | interior | room | wall | shadow | floor | ceiling | beam | light | rail | platform | lever | cord | daylight | cylinder | container | debris | blur | grain | mark | door | handle | detail | engineeringhistory | communications | box | pipe

License

No known copyright restrictions

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'Nicola's engine room

Description

Inside the engine room on ?Nicola? the first SD14 to be built by Austin & Pickersgill (TWAM ref. DT.TUR/4/3732B). This set celebrates the ?Nicola?, the first in a long line of standard ships designed by the Sunderland shipyard of Austin & Pickersgill Ltd. The images document her construction from October 1967 through to her completion in February 1968. The shipbuilders commissioned the Newcastle-based firm Turners (Photography) Ltd to take weekly progress shots of the ?Nicola? and these images have given us a unique view of her development. She was the first SD14 to be completed (the name stands for ?Shelter Deck 14,000 tons deadweight?) and was designed as a replacement for the surviving ?Liberty ships?, built by American yards during the Second World War. Those Liberty ships had played a vital role in the Allied victory but by the 1960s they were fast approaching the end of their working lives. The SD14 developed by Austin & Pickersgill met the demand for economic and reliable cargo ships. The simplicity of the design meant that it could be marketed by the shipbuilders at a very competitive price. It?s success is reflected by the fact that over the course of 20 years 211 ships were built to the SD14 design by Austin Pickersgill and its licensees. Sunderland can be very proud of its remarkable shipbuilding and engineering history and the SD14 is one the City?s finest achievements. (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 archives@twmuseums.org.uk

Subjects

nicola | industry | austinpickersgillltd | sunderland | shipbuilding | sd14 | southwick | shipyard | riverwear | engineroom | marineengineering | hawthornsulzerengine | maritimeheritage | colourphotograph | engine | mechanical | machine | ship | sunderlandshipyard | nut | bolt | plate | metal | steel | construction | october1967 | february1968 | shipbuilder | commission | turnersltd | progressshots | development | shelterdeck14000tonsdeadweight | libertyships | replacement | cargo | engineering | enginenameplate | hawthornsulzer | pipe | cylinder | bar | rail | floor | platform | nicolathefirstsd14 | design | striking | unusual | remarkable

License

No known copyright restrictions

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The crew's messroom on 'Nicola'

Description

View of crew?s messroom on ?Nicola? the first SD14 to be built by Austin & Pickersgill at the Southwick shipyard, Sunderland (TWAM ref. DT.TUR/4/3732R). This set celebrates the ?Nicola?, the first in a long line of standard ships designed by the Sunderland shipyard of Austin & Pickersgill Ltd. The images document her construction from October 1967 through to her completion in February 1968. The shipbuilders commissioned the Newcastle-based firm Turners (Photography) Ltd to take weekly progress shots of the ?Nicola? and these images have given us a unique view of her development. She was the first SD14 to be completed (the name stands for ?Shelter Deck 14,000 tons deadweight?) and was designed as a replacement for the surviving ?Liberty ships?, built by American yards during the Second World War. Those Liberty ships had played a vital role in the Allied victory but by the 1960s they were fast approaching the end of their working lives. The SD14 developed by Austin & Pickersgill met the demand for economic and reliable cargo ships. The simplicity of the design meant that it could be marketed by the shipbuilders at a very competitive price. It?s success is reflected by the fact that over the course of 20 years 211 ships were built to the SD14 design by Austin Pickersgill and its licensees. Sunderland can be very proud of its remarkable shipbuilding and engineering history and the SD14 is one the City?s finest achievements. (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 archives@twmuseums.org.uk

Subjects

nicola | industry | austinpickersgillltd | sunderland | shipbuilding | sd14 | southwick | shipyard | riverwear | messroom | colourphotograph | digitalimage | maritime | industrial | social | abstract | nicolathefirstsd14 | shipinterior | cabin | crewsmessroom | standardship | ship | vessel | sunderlandshipyard | austinpickersgill | construction | october1967 | completion | february1968 | commission | newcastlebased | turnersphotographyltd | progressshots | development | structure | shelterdeck14000tonsdeadweight? | replacement | libertyships | cargoship | engineering | curtain | windo | glass | fascinating | informative | unusual | interesting | table | chair | cupboard | handle | timber | metal | armrest | seat | fabric | crease | wall | light | ceiling | pipe | paint | floor | cylinder | hotwatertank | shadow | board | door | porthole | tile | square | shine

License

No known copyright restrictions

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3.051J Materials for Biomedical Applications (MIT)

Description

This class provides an introduction to the interactions between cells and the surfaces of biomaterials. The course covers: surface chemistry and physics of selected metals, polymers, and ceramics; surface characterization methodology; modification of biomaterials surfaces; quantitative assays of cell behavior in culture; biosensors and microarrays; bulk properties of implants; and acute and chronic response to implanted biomaterials. General topics include biosensors, drug delivery, and tissue engineering.

Subjects

interactions between proteins | cells and surfaces of biomaterials | surface chemistry and physics of metals | polymers and ceramics | Surface characterization methodology | Quantitative assays of cell behavior in culture | Organ replacement therapies | Acute and chronic response to implanted biomaterials | biosensors | drug delivery and tissue engineering

License

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.htm

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'Kosmaj' afloat after launch

Description

Subjects

door | roof | water | lightbulb | buildings | river | fire | outfit | still | workers | construction | bars | industrial | symbol | timber | parts | debris | letters | platform | replacement | rail | windy | rope | flags | calm | structure | goods | riverwear | deck | doorway | bow | frame | porthole | anchor | bilge | boxes | block | walls | panels | unusual | mast | launch | supplies | electricalwire | shipyard | accommodation | stark | stern | deckhouse | afloat | assembly | sunderland | aft | bulkcarrier | shipbuilding | joinery | cargoship | hatchway | momentous | cargocontainers | maritimeheritage | colourphotograph | march1977 | kosmaj | marineengineering | shiplaunches | northsandssunderland | 7june2014 | northsandsyard | bottomstructure | 18august1977

License

No known copyright restrictions

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'Nicola' getting a coat of paint

Description

View of ?Nicola? shortly before launch from the Southwick yard of Austin & Pickersgill Ltd, mid December 1967 (TWAM ref. DT.TUR/2/52047B). She's getting a coat of paint and you can now see her name. This set celebrates the ?Nicola?, the first in a long line of standard ships designed by the Sunderland shipyard of Austin & Pickersgill Ltd. The images document her construction from October 1967 through to her completion in February 1968. The shipbuilders commissioned the Newcastle-based firm Turners (Photography) Ltd to take weekly progress shots of the ?Nicola? and these images have given us a unique view of her development. She was the first SD14 to be completed (the name stands for ?Shelter Deck 14,000 tons deadweight?) and was designed as a replacement for the surviving ?Liberty ships?, built by American yards during the Second World War. Those Liberty ships had played a vital role in the Allied victory but by the 1960s they were fast approaching the end of their working lives. The SD14 developed by Austin & Pickersgill met the demand for economic and reliable cargo ships. The simplicity of the design meant that it could be marketed by the shipbuilders at a very competitive price. It?s success is reflected by the fact that over the course of 20 years 211 ships were built to the SD14 design by Austin Pickersgill and its licensees. Sunderland can be very proud of its remarkable shipbuilding and engineering history and the SD14 is one the City?s finest achievements. (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 archives@twmuseums.org.uk

Subjects

nicola | industry | austinpickersgillltd | sunderland | shipbuilding | sd14 | southwick | shipyard | riverwear | painting | maritimeheritage | industrial | blackandwhitephotograph | coatofpaint | launch | ship | structure | plank | frame | plate | parts | steel | metal | december1967 | name | signage | letters | word | standard | sunderlandshipyard | construction | october1967 | completion | february1968 | commission | newcastle | turners | development | shelterdeck14000tonsdeadweight | libertyships | replacement | cargo | engineering | river | bank | water | stairs | rail | crane | window | glass | buildings | sky | cloud | landscape | wire | hook | machine | deck | cabin | pole | porthole | vegetation | intriguing | paint | coat

License

No known copyright restrictions

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'Nicola's stern frame in place

Description

Stern frame in place on ?Nicola?, the first SD14 to be built by Austin & Pickersgill, 20 November 1967 (TWAM ref. DT.TUR/2/51857A). This set celebrates the ?Nicola?, the first in a long line of standard ships designed by the Sunderland shipyard of Austin & Pickersgill Ltd. The images document her construction from October 1967 through to her completion in February 1968. The shipbuilders commissioned the Newcastle-based firm Turners (Photography) Ltd to take weekly progress shots of the ?Nicola? and these images have given us a unique view of her development. She was the first SD14 to be completed (the name stands for ?Shelter Deck 14,000 tons deadweight?) and was designed as a replacement for the surviving ?Liberty ships?, built by American yards during the Second World War. Those Liberty ships had played a vital role in the Allied victory but by the 1960s they were fast approaching the end of their working lives. The SD14 developed by Austin & Pickersgill met the demand for economic and reliable cargo ships. The simplicity of the design meant that it could be marketed by the shipbuilders at a very competitive price. It?s success is reflected by the fact that over the course of 20 years 211 ships were built to the SD14 design by Austin Pickersgill and its licensees. Sunderland can be very proud of its remarkable shipbuilding and engineering history and the SD14 is one the City?s finest achievements. (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 archives@twmuseums.org.uk

Subjects

nicola | industry | austinpickersgillltd | sunderland | shipbuilding | sd14 | southwick | shipyard | riverwear | maritimeheritage | blackandwhitephotograph | sternframe | platform | construction | 20november1967 | standardship | october1967 | february1968 | newcastle | turnersphotographyltd | progression | development | shelterdeck14000tonsdeadweight | libertyships | replacement | alliedvictory | secondworldwar | economic | reliable | cargoships | engineering | crane | steel | metal | frame | plate | scaffold | timber | debris | cylinder | worker | stairs | bolt | nut | wire | bridge | soil | parts | sky | ground | unusual | striking

License

No known copyright restrictions

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Biomaterials and Biomedical Materials: Structure of Bone and Implant materials

Description

This set of animations demonstrates stresses in bone and femoral implants and their properties. From TLP: Structure of Bone and Implant materials

Subjects

bone | hip replacement | biomaterials | bio-materials | composite | composites | property map | DoITPoMS | University of Cambridge | animation | corematerials | ukoer

License

http://creativecommons.org/licenses/by-nc-sa/2.0/uk/

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E0000P0007

Description

Packet of Lamb synthetic colostrum (Volostrum)

Subjects

svmsvet | lamb | volostrum | colostrum | replacement | sheep

License

http://creativecommons.org/licenses/by-nc-sa/2.0/

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E0000P0007

Description

Packet of Lamb synthetic colostrum (Volostrum)

Subjects

svmsvet | lamb | volostrum | colostrum | replacement | sheep

License

http://creativecommons.org/licenses/by-nc-sa/2.0/

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Occupational Therapy Client Interview Gina

Description

An initial occupational therapy assessment interview of a client with hip fracture and partial hip replacement. The interview is a simulation, set in a community hospital.

Subjects

occupational therapy interview hip fracture replacement OT assessment patient client

License

Copyright Oxford Brookes University, all rights reserved Copyright Oxford Brookes University, all rights reserved

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20.441J Biomaterials-Tissue Interactions (MIT)

Description

This course covers the principles of materials science and cell biology underlying the design of medical implants, artificial organs, and matrices for tissue engineering. Methods for biomaterials surface characterization and analysis of protein adsorption on biomaterials. Molecular and cellular interactions with biomaterials are analyzed in terms of unit cell processes, such as matrix synthesis, degradation, and contraction. Mechanisms underlying wound healing and tissue remodeling following implantation in various organs. Tissue and organ regeneration. Design of implants and prostheses based on control of biomaterials-tissue interactions. Comparative analysis of intact, biodegradable, and bioreplaceable implants by reference to case studies. Criteria for restoration of physiological funct

Subjects

20.441 | 2.79 | 3.96 | HST.522 | medical implants | tissue engineering | unit cell process | wound healing | joint replacement | extracellular matrix | biocompatibility

License

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3.051J Materials for Biomedical Applications (MIT)

Description

This class provides an introduction to the interactions between cells and the surfaces of biomaterials. The course covers: surface chemistry and physics of selected metals, polymers, and ceramics; surface characterization methodology; modification of biomaterials surfaces; quantitative assays of cell behavior in culture; biosensors and microarrays; bulk properties of implants; and acute and chronic response to implanted biomaterials. General topics include biosensors, drug delivery, and tissue engineering.

Subjects

interactions between proteins | cells and surfaces of biomaterials | surface chemistry and physics of metals | polymers and ceramics | Surface characterization methodology | Quantitative assays of cell behavior in culture | Organ replacement therapies | Acute and chronic response to implanted biomaterials | biosensors | drug delivery and tissue engineering

License

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.htm

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Biomaterials and Biomedical Materials: Structure of Bone and Implant materials

Description

This set of animations demonstrates stresses in bone and femoral implants and their properties. From TLP: Structure of Bone and Implant materials

Subjects

bone | hip replacement | biomaterials | composite | composites | property map | doitpoms | university of cambridge | animation | corematerials | ukoer | Engineering | H000

License

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/

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3.051J Materials for Biomedical Applications (MIT)

Description

This course gives an introduction to the interactions between proteins, cells and surfaces of biomaterials. It includes surface chemistry and physics of selected metals, polymers and ceramics, modification of biomaterials surfaces, and surface characterization methodology; quantitative assays of cell behavior in culture and methods of statistical analysis; organ replacement therapies and acute and chronic response to implanted biomaterials. The course includes topics in biosensors, drug delivery and tissue engineering.

Subjects

Interactions between proteins | cells | Surface chemistry and physics of metals | polymers and ceramics | Surface characterization methodology | Quantitative assays of cell behavior | Organ replacement therapies | Acute and chronic response to implanted biomaterials | Biosensors | drug delivery and tissue engineering | Interactions between proteins | cells | Surface chemistry and physics of metals | polymers and ceramics | Biosensors | drug delivery and tissue engineering | BE.340J | 3.051 | BE.340 | 20.340

License

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.htm

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