Public tenders for environment in Cambridge United Kingdom

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REF: AEMRI-76-3DCAD - PC and 3D CAD software

TWI Ltd | Published May 16, 2018
cpvs
72212321

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. Technical overview AEMRI uses ultrasonic NDT techniques to inspect components with complex geometries. The industrial robots used in the ultrasonic inspection typically use third party CAD models to design the complex inspection paths. The aim of the tender is to procure CAD software to support the import, editing and modification of 3D design files and customer supplied models (in various formats) to allow subsequent robot path planning in specialist third party software. The required 3D CAD software is therefore essential to complete multiple programmes of work. The software provided will require a suitable computer for the simulation functions available – this will need to be specified and optimised to support the supplier’s software. A full specification of the proposed PC is to be provided with the tender response, including details of the manufacturer, model and specifications of key elements (i.e. processor, operating system, graphics card etc.). TWI requires the supply of new software specifically to support the import and edit third party CAD files. The software may be a single application or a combination of applications (such as file translators etc.) which must work together to achieve the capability and requirements defined below.

Anglian Learning - Tender for Cleaning Services

The Litmus Partnership Ltd | Published May 2, 2018  -  Deadline June 1, 2018
cpvs
90919300

Anglian Learning is a growing Multi Academy Trust based in Cambridgeshire, formed in 2016. The trust currently comprises of 4 secondary schools and 3 primary schools providing education to around 4 500 students. Secondary Schools: Bassingbourn Village College - 600 students; Bottisham Village College - 1 100 students; Sawston Village College - 1 000 students; The Netherhall School and Sixth Form Centre - 1 200 students. Primary Schools: Bottisham Community Primary School - 250 students; Fen Ditton Primary School - 175 students; Stapleford Community Primary School - 200 students. This procurement process is being carried out to enable the trust to award a contract for the daily cleaning services across its schools. The trust requires an excellent cleaning services partner to ensure that we can deliver a high quality standard of cleaning and hygiene maintenance across all our school sites, within teaching and learning facilities and community areas. The tender project is seeking to appoint a Supplier whose initiative and innovation will be welcomed for the provision of cleaning services within the facilities for the schools within the trust. The high quality service levels proposed should maintain excellent standards throughout, resulting in a pleasant environment for both the pupils and staff at all schools. The basis and rationale that the Client requires the successful Supplier to operate to at all times, is being able to provide school cleaning that is fit for purpose and that the Supplier is proactive in the management of the contract, thus ensuring that all specifications are achieved and that the frequency of cleans is as detailed within the tender specification. The contract being tendered is for three years in duration from 1.1.2019 to 31.12.2021 and will be fixed price in nature, with the Supplier invoicing the Client for one-twelfth of the annual cost on a monthly basis. This is a 3+2 years contract whereby the Client may, at its discretion, extend the contract for a further 2 years. It should be noted that the successful Supplier will be expected to bring to the contract: innovation; new equipment as needed; and cleaning methods, with BICSc standards being achieved, as a minimum, thus ensuring that the highest levels of cleanliness are maintained in all areas at all times and also ensuring that the productivity of the cleaning operatives is enhanced moving forward into the new contract term. Please be advised that this is a growing Multi Academy Trust. To that end, any schools already in the trust or any additional schools that may join the trust during the course of the contract, may, at the discretion of the trust, be added to this contract. Further information is provided in the SQ Document.

REF: AEMRI-73-AMPS - Provision of an Additive Manufacturing Printing Solution

TWI Ltd | Published April 25, 2018
cpvs
42991200

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. Technology Overview TWI desire to enhance their plastic/polymer Additive Manufacturing (AM) capabilities to subsequently aid in the delivery of objectives mentioned above. Additive manufacturing is a rapid fabrication process that allows users to create custom components in small production volume. Applications for AM components at TWI change daily, and the fabrication technology needs to be able to create low volume, bespoke components. The solution is to be a desktop stereolithography (SLA) device that can manufacture in a range of different materials. Consumables and add-on features for the discussed technology should also be provided in the solution. Please ensure all correspondence relating to this tender is submitted through the In-Tend correspondence facilities.

REF: AEMRI-78-CTRC - Hardware Solution for Reconstruction of Computed Tomography Data

TWI Ltd | Published April 18, 2018
cpvs
44316400

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. The purpose of purchasing a new hardware solution for use with both the X-Tek microfocus 450kV and the X-Tek microfocus 225kV is to enhance the radiographic inspection capabilities at TWI. This new combined software and hardware solution, which will include a high performance PC and associated reconstruction software, will allow for the time-efficient processing of CT data acquired during research and client-based projects. The ability to handle more data in a shorter amount of time will lead to a more cost-effective process for radiographic inspection at TWI Wales. Please ensure all correspondence relating to this tender is submitted through the In-Tend correspondence facilities.

REF: AEMRI-71-EST - Electric Lift and Drive Stacker Truck Equipment

TWI Ltd | Published April 16, 2018
cpvs
42415110

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. We require a battery powered traction and lift stacker truck to handle various size pallets up to 1200Kg. The truck must have a tight turning circle so that it can operate within a stores environment. It will be required to operate in some single storey storage rooms so a triplex mast will be required to minimise working height of the mast.

Cambridge City Council - Mill Road Cemetery Footpaths

Cambridgeshire District Councils | Published April 13, 2018  -  Deadline May 18, 2018
cpvs
45000000

The cemetery is an English Heritage Grade II listed site and is also designated a County Wildlife Site. The cemetery's main footpath(s), from the main pedestrian and vehicular entrance off Mill Road, pass through the middle of the cemetery, a number of connecting smaller footpaths navigate the boundary of the cemetery. These footpaths allow access to this important and historic open space which is frequently used by both cyclists and pedestrians. The existing paths have been constructed from an unbound aggregate construction (possibly Carstone) and generally in dry periods the paths are in good condition. Issues arise from the verges either side of the paths being higher than the path surfaces; as the paths are now compacted they are not porous and therefore water pools on the paths, with large puddles in the winter. The purpose of the works will be to improve the continuity and effectiveness of the paths using the existing paths as the foundations. Timber edgings shall be installed to better define the path width; the base will be constructed to re-profile the shape of the path before a new surface layer is put down. The grass verges shall be top soiled and seeded to bring them to the level of the new path. Some of the paths to the east side and through the middle of the cemetery have very little or no construction. To ensure that the paths remain in keeping with the natural and historic environment of the cemetery they shall be constructed using a self-binding aggregate construction, similar in appearance to the existing construction. Link to ProContract advert for Expression of Interest: https://procontract.due-north.com/Advert?advertId=f17ff280-153f-e811-80eb-005056b64545&fromAdvertEvent=True

Hardware solution for reconstruction of computed tomography data

TWI Ltd | Published March 16, 2018
cpvs
44316400

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. The purpose of purchasing a new hardware solution for use with both the X-Tek microfocus 450kV and the X-Tek microfocus 225kV is to enhance the radiographic inspection capabilities at TWI. This new combined software and hardware solution, which will include a high performance PC and associated reconstruction software, will allow for the time-efficient processing of CT data acquired during research and client-based projects. The ability to handle more data in a shorter amount of time will lead to a more cost-effective process for radiographic inspection at TWI Wales.

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.
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