Public tenders for environment in Cambridge United Kingdom

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Scientific installations

The Chancellor, Masters and Scholars of the University of Cambridge | Published November 4, 2017
cpvs
45214630, 51430000, 71350000, 71900000

Europe's top cancer charity, Cancer Research UK, has combined with the University of Cambridge to fund the world class Cancer Research UK Cambridge Institute, situated on the Addenbrooke's Biomedical Campus in Cambridge. As part of the University Of Cambridge School Of Clinical Medicine, the Institute's research ranges from basic cancer biology through translational cancer research to clinical application. The Institute currently houses over 350 researchers and support staff with 20 research groups. It provides a highly collaborative, multi-disciplinary environment in cancer research, with state of the art facilities and core scientific resources, and good links with the scientific community of Cambridge.

The Institute has had a strong focus on in-vivo imaging since its opening, and its equipment includes 2 pre-clinical magnetic resonance scanners.

Europe's top cancer charity, Cancer Research UK, has combined with the University of Cambridge to fund the world class Cancer Research UK Cambridge Institute, situated on the Addenbrooke's Biomedical Campus in Cambridge. As part of the University Of Cambridge School Of Clinical Medicine, the Institute's research ranges from basic cancer biology through translational cancer research to clinical application. The Institute currently houses over 350 researchers and support staff with 20 research groups. It provides a highly collaborative, multi-disciplinary environment in cancer research, with state of the art facilities and core scientific resources, and good links with the scientific community of Cambridge.

The Institute has had a strong focus on in-vivo imaging since its opening, and its equipment includes 2 pre-clinical magnetic resonance scanners.

Cambridge City Council - Garage Heating deign & replacement

Cambridgeshire District Councils | Published October 17, 2017  -  Deadline November 2, 2017
cpvs
45331000

The removal and making good of existing equipment, the design and installation of a 2 boiler, commercial, oil fired heating system, at our Council Garage Site in Waterbeach. The contractor is required to ensure that the proposed design is energy efficient and that the installation will provide an appropriate working environment in both the workshop and office areas (including the replacement of and installation of additional radiators as specified). In addition, the contractor is required to carry out the specified remedial works to the tank storage area and surrounding fencing.

REF: AEMRI-56-CTVAS - Computed Tomography Visualisation and Analysis Software

TWI Ltd | Published October 6, 2017
cpvs
48100000

TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre. TWI Technology Centre (Wales) currently operates two microfocus X-ray CT scanning systems from Nikon Metrology (formerly X-Tek Systems Ltd). For visualisation and analysis, TWI operates a license of Volume Graphics’ VGStudio MAX Version 2.2 with the Coordinate Measurement Module. TWI requires either an upgrade for this software package or the supply of new software, ensuring the functionality of the existing software. Please ensure all correspondence relating to this tendert is submitted through the In-Tend correspondence facilities.

REF: AEMRI-54-HPC - High Performance Computers with HD monitors

TWI Ltd | Published August 8, 2017
cpvs
30237200

2 high performance computers will enable concurrent control and data re-processing of TWI ultrasonic testing techniques and will communicate with a vast range of ultrasonic pulser-receiver equipment via Ethernet and PCIe. If you would like to receive the tender documents please send an email to the TWI Purchasing Department at purchasing@twi.co.uk TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre.

REF: AEMRI-53-CTVAS - Computed Tomography Visualisation and Analysis

TWI Ltd | Published July 31, 2017
cpvs
48100000

TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre. TWI Technology Centre (Wales) currently operates two microfocus X-ray CT scanning systems from Nikon Metrology (formerly X-Tek Systems Ltd). For visualisation and analysis, TWI operates a license of Volume Graphics’ VGStudio MAX Version 2.2 with the Coordinate Measurement Module. TWI requires either an upgrade for this software package or the supply of new software, ensuring the functionality of the existing software. Please ensure all correspondence relating to this tender is submitted through the In-Tend correspondence facility.

REF: AEMRI-55-RIC - Robot Inspection Cell

TWI Ltd | Published July 28, 2017
cpvs
42997300

TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre. TWI Ltd seeks an inspection cell incorporating two robot manipulators positioned opposite each other and mounted on independent track systems. Please ensure all correspondence relating to this tender is submitted through the In-Tend correspondence facility.

Wrangle Sea Bank Earthworks AMENDED NOTICE

LINCOLNSHIRE COUNTY COUNCIL | Published July 17, 2017  -  Deadline August 7, 2017
cpvs
45100000

Works to raise the level of the existing sea bank near Wrangle, Lincolnshire, over a length of approximately 5.8km, to improve coastal flood protection and reduce the risk of tidal flooding. The project is an Environment Agency (EA) scheme to improve an EA flood defence asset. However, the Witham Fourth District Internal Drainage Board (W4IDB) shall deliver the project and provide the benefits of their local knowledge and resources. Peter Brett Associates LLP are appointed by W4IDB as Consultants providing civil engineering and project management services for the scheme. For the purposes of this procurement the W4IDB is the contracting authority. Bidders should note that the contract is funded through European Structural & Investment Fund (ESIF) which is managed through the Department of Communities and Local Government (DCLG) and underwritten by Lincolnshire County Council (LCC). https://procontract.due-north.com/Opportunities/Index?p=527b4bbd-5c58-e511-80ef-000c29c9ba21&v=1 PLEASE NOTE THIS IS AN AMENDMENT TO THE NOTICE PUBLISHED ON 06/07/17 AS THE CLOSING DATE HAS BEEN EXTENDED

Wrangle Sea Bank Earthworks

Witham Fourth Internal Drainage Board | Published July 6, 2017  -  Deadline July 31, 2017
cpvs
45100000

Works to raise the level of the existing sea bank near Wrangle, Lincolnshire, over a length of approximately 5.8km, to improve coastal flood protection and reduce the risk of tidal flooding. The project is an Environment Agency (EA) scheme to improve an EA flood defence asset. However, the Witham Fourth District Internal Drainage Board (W4IDB) shall deliver the project and provide the benefits of their local knowledge and resources. Peter Brett Associates LLP are appointed by W4IDB as Consultants providing civil engineering and project management services for the scheme. For the purposes of this procurement the W4IDB is the contracting authority. Bidders should note that the contract is funded through European Structural & Investment Fund (ESIF) which is managed through the Department of Communities and Local Government (DCLG) and underwritten by Lincolnshire County Council (LCC). https://procontract.due-north.com/Opportunities/Index?p=527b4bbd-5c58-e511-80ef-000c29c9ba21&v=1

REF: AEMRI-52-PAT - Ultrasonic Probes and Wedges for Bespoke Applications

TWI Ltd | Published June 20, 2017
cpvs
31711120

TWI will require various Phased Array (PA) transducers and wedges which will be used for different applications. TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre. Any queries relating to this tender must be submitted using the In-Tend correspondence facility.

REF: AEMRI-51-PAC - Portable Ultrasonic Phased Array Controllers

TWI Ltd | Published June 9, 2017
cpvs
38900000

Eight state-of-the-art, advanced portable ultrasonic array controller instruments to form the core of phased array ultrasonic testing and procedures development are required. The hardware must facilitate the application of the most recent developments in phased array technology and allow the PAUT testing of complex and challenging geometries and components. Please ensure all queries are submitted using the In-Tend correspondence facilty. TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre.

REF: AEMRI-50-MS - Motion Capture System for a Robotic Cell

TWI Ltd | Published June 6, 2017
cpvs
38651000

The supplier will provide a motion capture system, capable of measuring position and orientation data of robot end effectors within the working envelope of the robotic cell. The robots are currently enclosed in a 3m x 5m x 5m volume and are located as shown in the provided CAD file. The working envelope of the two robots is limited to a volume above the table (shown in the CAD file) measuring 3m long by 1.5m wide by 1.5m high. This is the volume wherein the tools on the robots are required to be tracked. Please ensure all correspondence relating to this tender is submitted through the In-Tend portal. TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre.

REF: AEMRI-47-UPFPR - Two (2) Ultrasonic PAUT/FMC Pulser-Receivers

TWI Ltd | Published May 19, 2017
cpvs
38900000

Two 64/64 ultrasonic phased array/FMC ultrasonic pulser-receiver systems are required for girth weld inspection within the nuclear industry, capable of pulse-echo and self-tandem inspection, as well as pitch-catch inspection through synchronisation of the two pulser-receiver systems. Any queries relating to this tender must be submitted using the In-Tend correspondence facility. TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre.

REF: AEMRI-49-PAT - Ultrasonic Probes and Wedges for Bespoke Applications

TWI Ltd | Published May 18, 2017
cpvs
31711120

TWI will require various Phased Array (PA) transducers and wedges which will be used for different applications. Any queries relating to this tender must be submitted using the In-Tend correspondence facility. TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- -Modelling and Simulation of High Performance Materials and Structures. -Advanced Robotic Inspection of Complex Geometry Structures. -Inspection Systems for Very Large Structures for the Green Energy Sector. -Nuclear Fabrication Research Centre.

REF: AEMRI-48-PATW - Phased Array Transducers and Wedges

TWI Ltd | Published May 18, 2017
cpvs
31711120

These Phased Array (PA) transducers will enable the development of advanced ultrasonic techniques and will be used for lab testing and site testing of large structures. All transducers need to be compatible with an Omniscan MX2 instrument, which is already within TWI, and come with by a data sheet document. This specification covers 11 PA transducers and 18 wedges. Any queries relating to this tender must be submitted using the In-Tend correspondence facility. TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre.

REF: AEMRI-41-3DDS - 2D/3D Displacement Sensor Equipment

TWI Ltd | Published March 30, 2017
cpvs
35125100

TWI Technology Centre (Wales) has been using a robotic cell for automated Non-Destructive Testing (NDT) since 2012 and is continually working towards improving the existing setup. An automated part recognition system is required as part of the ongoing development. This development is aimed at reducing the overall time needed for inspections as well as assuring the optimal robotic path is utilised by measuring the component geometry accurately. A 2D/3D displacement sensor would significantly decrease the setup time needed for inspections by measuring features on the surface of a component which will be used to define the base coordinates in the robot reference frame. In addition, a 2D/3D displacement sensor will enable more accurate path planning by verifying the geometry of the component prior to inspection, and using the displacement data to correct for differences between the CAD data provided for the component, and the actual component geometry. The supplier will provide a single light based (either laser profile or structured light) scanning system capable of measuring standoff distance to a component. If you would like to receive the tender pack for tender AEMRI-41-3DDS please email purchasing@twi.co.uk TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre.

REF: AEMRI-42-PATW - Phased Array Transducers and Wedges

TWI Ltd | Published March 28, 2017
cpvs
31711120

These Phased Array (PA) transducers will enable the development of advanced ultrasonic techniques and will be used for lab testing and site testing of large structures. All transducers need to be compatible with an Omniscan MX2 instrument, which is already within TWI, and followed by a data sheet document. This specification covers 11 PA transducers and 18 wedges. Any queries relating to this tender must be submitted using the In-Tend correspondence facility. TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre.

Design, Supply and Installation of Furniture

Cambridgeshire District Councils | Published March 9, 2017  -  Deadline March 30, 2017
cpvs
39130000

Cambridge City Council has embarked on a strategy to rationalise its administrative office stock by refurbishing retained office accommodation and introducing "SMART" working practices into newly refurbished offices at Mandela House, 130 Cowley Road and The Guildhall, Cambridge. The Refurbishment works at Mandela House and Cowley road are about to begin and it is anticipated that offices be re-occupied by December 2017. The City Council is seeking furniture and office layout design expertise for the offices at Mandela House and 130 Cowley Road which will provide well laid out desk spaces and provide environments that encourage new ways of working in a modern working environment. The design should support the Council to achieve its aims to encourage mobile working, flexible meeting spaces, quiet and communal spaces alongside more traditional office layouts which maximise the use of floor space available. It should help the council meet its aim to reduce desk provision to a maximum desk to staff ratio of 7:10 and to maximise floor space utilisation to a standard of a maximum 6m2 per workstation.

REF: AEMRI-38-OC - 2 x 10 tonne Overhead Cranes

TWI Ltd | Published March 6, 2017
cpvs
42414200

The ongoing expansion of the TWI Facility in Port Talbot will include the addition of a second high bay laboratory. This high bay laboratory will need to be capable of handling large, heavy customer samples from a variety of industries. Due to the varying size and weight of project samples that we currently have onsite and the potential for larger samples in the future, we propose to install two ten tonne overhead cranes which are capable of operating independently or in tandem. The ability to operate in tandem will allow us to handle large heavy components which have large distances between lifting points. This will remove the need for a taller building to allow the use of lifting beams and spreader bars. The preferred supplier must liaise with the build contractors throughout the build to ensure that all requirements are captured and schedules and deadlines and met. Please ensure that all queries are submitted through the In-Tend correspondence facility. TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre.

REF: AEMRI-32-ASP - Radiography SImulation Software

TWI Ltd | Published March 6, 2017
cpvs
72268000

The purpose of purchasing radiography simulation software is to enhance the capabilities of the radiographic inspection facilities at TWI. The software will enable visualisation of 2D digital radiography and 3D computed tomography of various CAD models using specified sources and detector characteristics. If you have any queries or would like to receive the tender documents please email purchasing@twi.co.uk TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- - Modelling and Simulation of High Performance Materials and Structures. - Advanced Robotic Inspection of Complex Geometry Structures. - Inspection Systems for Very Large Structures for the Green Energy Sector. - Nuclear Fabrication Research Centre.

REF: AEMRI-31-RIC Robot Inspection Cell

TWI Ltd | Published February 23, 2017
cpvs
42997300

TWI Ltd seeks to develop new inspection procedures and analysis techniques aimed at reducing the time and cost burden of quality assurance of components with challenging geometries. To help attain the reduction in inspection time, automated, robotic large area scanning and manipulation to cover complex geometries is to be implemented as part of the solution. The tendered solution should comprise an inspection cell incorporating two robot manipulators positioned opposite each other and mounted on independent track systems. In addition provision should be made for a removable turntable system capable of encoded rotation about the vertical axis of a 3.5m diameter x 2m high cylindrical component weighing 800kg. Components will be loaded onto the turntable by overhead crane. TWI will be holding a site visit at TWI Wales in relation to this tender on Tuesday the 7th March 2017 at 10am which is expected to last approximately 2 hours. If you would like to attend please send full attendee names and a copy of photographic ID such as a passport or driving licence no later than 3pm on Monday the 6th March 2017 through the in-tend correspondence facility. You will also be required to bring photographic ID on the day of the site visit. TWI is one of the world’s foremost independent research and technology organisations, with expertise in solving problems in all aspects of manufacturing, fabrication and whole-life integrity management technologies. Established in Cambridge, UK in 1946 and with facilities across the globe, the company has a first class reputation for service through its teams of internationally respected consultants, scientists, engineers and support staff, whose knowledge and expertise is available to its Industrial Members as and when they require. This specification has been produced as part of an initiative known as AEMRI (Advanced Engineering Materials Research Institute), which is funded by the Welsh European Funding Office (WEFO) using European Regional Development Funds (ERDF). AEMRI seeks to create a unique facility housing a critical mass of equipment, expertise and resources. AEMRI provides an environment to test and prove the limits of performance of advanced materials. Through the use of advanced modelling and simulation methods, full, large-scale mechanical test structures will be designed and built upon finite element analysis (FEA) calculations. Advanced, automated non-destructive evaluation (NDE) techniques will be developed with the aim of saving the industry time and production costs as well as minimising the risk of catastrophic structural failures. AEMRI will deliver the objectives of the project through the following four technical strands:- -Modelling and Simulation of High Performance Materials and Structures. -Advanced Robotic Inspection of Complex Geometry Structures. -Inspection Systems for Very Large Structures for the Green Energy Sector. -Nuclear Fabrication Research Centre. Please ensure that any queries are submitted through the in-tend correspondence facility
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