The Testing and Structures Research Laboratory (TSRL) has a number of 100kN test frames and a larger 630kN frame. Recent strategic research directions have meant that we require samples that need more force than 100kN but are dimensionally too small to fit in the 630kN machine. Subsequently, the University requires a new Servo-Hydraulic Test Machine with load capacity of approximately 250kN to complement our existing capabilities and fill in the gap between our existing machines.
The TSRL has capacity within its existing hydraulic infrastructure to include this additional machine in terms of hydraulic flow and available outlets of the existing 210bar ring main. The scope of this procurement is to provide, install and commission a 250kN test machine with a t-slotted (or equivalent base) alongside an appropriate load cell, hydraulic grips, control system and associated software and hardware interfaces. The system will be used for both static and dynamic testing and thus must be fatigue rated for large numbers of cycles.
This contract has one lot. Bid if it suits your firm.
The Testing and Structures Research Laboratory (TSRL) has a number of 100kN test frames and a larger 630kN frame. Recent strategic research directions have meant that we require samples that need more force than 100kN but are dimensionally too small to fit in the 630kN machine. Subsequently, the University requires a new Servo-Hydraulic Test Machine with load capacity of approximately 250kN to complement our existing capabilities and fill in the gap between our existing machines.
The TSRL has capacity within its existing hydraulic infrastructure to include this additional machine in terms of hydraulic flow and available outlets of the existing 210bar ring main. The scope of this procurement is to provide, install and commission a 250kN test machine with a t-slotted (or equivalent base) alongside an appropriate load cell, hydraulic grips, control system and associated software and hardware interfaces. The system will be used for both static and dynamic testing and thus must be fatigue rated for large numbers of cycles.
The University is conducting this procurement using the Open Procedure in accordance with the requirements of the Regulations for the purpose of procuring the goods described in the Specification.
The University proposes to enter into a Contract for one year and six months - this will be the maximum contract period.
This will comprise of an initial contract period of six months for the provision of the equipment with an additional twelve months warranty period for support and maintenance.
The contract will be effective upon signing. The term of the warranty of twelve months will run from the date of acceptance of the equipment.
The estimated value of the contract is between £165,000.00 and £180,000.00 excluding VAT. This value includes all related components, services and maintenance for the contract period. Additional information: This contract is NOT suitable for splitting into lots. The risk of dividing the requirement into Lots would render the execution of the contract excessively technically difficult, not cost effective and would undermine proper execution of the contract.£180,000