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Engineering laboratories in The Diamond | Faculty of Engineering | The University of Sheffield Skip to main content Close menu × Engineering at Sheffield Faculty About us Departments Contact us Equality, diversity and inclusion Wall of women News Work with us Faculty Handbook (Internal users only) Study Study Engineering at Sheffield What we offer What you can study Engineering student teams and societies International excellence scholarships PGT Home Scholarships Pathway to Engineering Activities for Schools and Colleges Year in industry Student profiles How we can help Research Research and Innovation Research vision and strategy Departments Innovation and Impact Research centres PhD study Business and Industry Business and Industry Work with us Recruiting our students Engineering Campus Engineering Campus Mappin Building The Diamond Coronavirus (Covid-19): latest advice Study Courses Undergraduate courses Postgraduate taught courses PhD study Apprenticeships Mature students Online learning TEFL and English as a second language Studying at Sheffield Teaching Facilities Ranking, reputation and history Your career prospects Student life Students' Union - the UK's no. 1 Clubs, societies and sport Our city Support Accommodation University residences Rent Apply for accommodation Visit Undergraduate open days Postgraduate open days International visits to your region Apply Undergraduate applications Postgraduate applications Applying as an international student Visas and immigration International students Our international community How to apply Visas and immigration Fees and funding Undergraduate fees and funding Postgraduate taught fees Postgraduate taught funding PhD fees PhD scholarships Contact us Research Expertise Flagship institutes Research centres Our people Nobel Laureates Queen's Anniversary Prizes Facilities Impact Our approach Research features REF 2014 Coronavirus: our research and innovation UN sustainable development goals PhD study Find a PhD PhD projects directory PhD scholarships Support for current researchers Contact us Research partnerships and people Collaborate Partnerships How we support business Examples of business partners Research centres, institutes and networks Our role in the city and region International Worldwide Universities Network at Sheffield We Are International campaign Global opportunities and exchanges Alumni Update your details Support us Our alumni Alumni volunteering Schools and colleges Virtual schools hub Activities and events Sustained programmes Partnerships Contact us Research partnerships and people Global Engagement team Schools and Colleges Liaison team Hospitality Conferences, events, visitor accommodation and weddings Cafes and bars About About the University News Events Sustainability at Sheffield Our role in the city and region Governance and management Rankings Queen's Anniversary Prizes Nobel Prize winners Departments and services Academic departments Faculties Professional Services Studying at Sheffield About the city of Sheffield Courses Hospitality Conferences, events, visitor accommodation and weddings Cafes and bars Engineering at Sheffield Menu ≡ Faculty About us Departments Contact us Equality, diversity and inclusion Wall of women News Work with us Faculty Handbook (Internal users only) Study Study Engineering at Sheffield What we offer What you can study Engineering student teams and societies International excellence scholarships PGT Home Scholarships Pathway to Engineering Activities for Schools and Colleges Year in industry Student profiles How we can help Research Research and Innovation Research vision and strategy Departments Innovation and Impact Research centres PhD study Business and Industry Business and Industry Work with us Recruiting our students Engineering Campus Engineering Campus Mappin Building The Diamond   You are here Home Engineering at Sheffield The Diamond Engineering laboratories in The Diamond Engineering laboratories in The Diamond There is a range of laboratories in The Diamond for students to take advantage of. Off On level one  Aerospace Simulation & Propulsion The Aerospace Simulation and Propulsion Laboratory provides hands-on experience of aircraft design and performance, using state-of-the-art flight simulators. Students can look at flight performance and stability, and test flying aircraft to determine their suitability for commercial or military purposes. They will get the rare opportunity to access a working jet engine, complete with simulator bench that allows changes in throttle position, altitude and temperature to be accurately modelled. Who uses this lab? Aerospace Engineering Engineering Foundation Year What equipment is in the lab? 5 Merlin static flight simulators for aircraft design  10 X-Plane flight simulators for flight control and navigation 20 Wren jet engines to take apart and analyse and one cutaway variant A GUNT ET 796 jet engine test bench  A Price Induction jet engine simulator bench  Rolls-Royce Gnome turboshaft engine loaned from Rolls-Royce Heritage  6 Cussons P9080 Compressor Rigs Analytics The Analytics Laboratory has a wide range of equipment that allows the characterisation of gas and liquid mixtures. One of the most widely used characterisation techniques is gas chromatography, the essential parts of which are the oven, carrier gas, syringe and detector, all of which feature in the laboratory.  Another example of the lab’s analytical equipment is the ion chromatograph, which allows the ions to be identified and their concentrations determined. It works by monitoring the progress of light through a solution with a dissolved component and is particularly useful for detecting very low concentrations. In addition, there is a range of equipment introducing fundamental principles of chemical engineering. For example, the laboratory contains a test apparatus to determine how mixing in a stirred tank depends upon the paddle used, speed and presence of baffles.  Students conduct experiments by adding a small volume of salt solution to a large tank of water, and then determining how long it takes for the tank concentration to reach a steady-state. Finally, there is an extensive range of laboratory equipment that covers areas of study such as acid/ base titrations, measurement of activation energy, synthesis of chemicals, fuel cells and renewable energy. The facilities also include a range of gases available through a manifold and four fume cupboards.  In the Analytics Laboratory, we offer students access to a wide range of equipment that is essential to their understanding of the fundamental principles of chemical engineering. Students will learn: Synthesis of chemicals, fuel cells and renewable energy Determine the concentration of ions and measure activation energy Characterisation and processing of mixtures Who uses this lab? Chemical Engineering Engineering Foundation Year Interdisciplinary Engineering (MEng Engineering) What equipment is in the lab? 2 x Ion Chromatographs (for the analysis of Anions in aqueous solutions) 2 x Low Resolution Gas Chromatographs with 1 metre glass packed 3mm I.D. columns for solvent/alcohols analysis Clean Room In the Clean Room, we provide a unique environment for the engineers of tomorrow to get to grips with a range of microfabrication techniques. The space is one hundred times cleaner than the air outside and has controlled access, with pressurisation, humidity and temperature control to prevent contamination. Students can produce and test devices at a scale smaller than a living cell and only visible with the most powerful of microscopes. It is a facility that is crucial in providing students with the kind of hands-on experience required to work in this remarkable field of engineering. Who uses this lab? Computer Science Electronic and Electrical Engineering Materials Science and Engineering What equipment is in the lab? Plasma etching (Oxygen and Argon) Thermal evaporators (most metals) Thermal annealing (tube furnace and desktop RTA) Optical microscopes with digital cameras Probe stations Source-measurement units (Keysight B2900) LCR meters (Keysight) Solar simulator (Newport multi-LED 0-1 sun) Spinner Mask aligners (Suss MJB3) Mask writer (Heidelberg uPG101) Min. feature size = 1um Diamond stylus surface profilometry (Dektak) Pilot Plant The Diamond Pilot Plant (DiPP) is the cornerstone for the education of the Sheffield Chemical Engineer.  Learn more Engineering Applications Workshop & Machine Shop The Engineering Applications Workshop This is a dedicated facility for the “Engineering Applications” module studied by Aerospace, Mechanical, Civil, Electrical and General Engineering (Meng) students. This module allows them to develop their understanding of different manufacturing techniques. Students are tasked with manufacturing their own Gyroscopically powered vehicle. They will receive tuition from a team of specialist technicians and Graduate Teaching Assistants using a variety of tools and equipment. The aim is to produce the fastest vehicle whilst using their gained knowledge to strengthen their understanding of the “Design for Manufacture” concept. The Machine Shop Used primarily by students to manufacture components for the “Engineering Applications” module above, this facility houses 16 bench lathes. Following a Health and Safety Induction students manufacture 3 components for the Gyroscopic car using a lathe, guided through the process by expert technicians. This area is also home to a Haas CNC Milling Machine and Lathe, larger scale bandsaws and other workshop related equipment. The space also houses two different types of unique 3D printers which are available for course-related activities and extracurricular projects. Fuse deposition modelling (FDM) printers create 3D parts from drawings by extruding layer upon layer of plastic 20 microns thick. Not only are can these devices be used for prototyping a students product design,  they are also a valuable tool for producing parts required by teachers themselves. The Formlabs Form 1+ uses a different method of 3D printing where an additive manufacturing process employs a vat of liquid ultraviolet curable photopolymer "resin" and an ultraviolet laser to build layers one at a time. Exposure to the light cures and solidifies the pattern traced on the resin and joins it to the layer below progressively building the 3D model. Who uses this lab? Aerospace Engineering Civil and Structural Engineering Electronic and Electrical Engineering Interdisciplinary Engineering (MEng Engineering) Mechanical Engineering What equipment is in the Machine Shop? 16 bench lathes and associated tooling Haas CNC Milling Machine Haas CNC office lathe Bandsaws What equipment is in the EA Workshop? Individual Workstations with tooling Manual Milling Machines Bench Drills Laser Cutters 3D printers Vacuum Former Sheet metal working facilities Hydraulic Press White metal centrifugal casting Metrology Bench Large Sheet Metal Working Equipment Structures & Dynamics The equipment in the lab includes latticed frameworks, arches and suspension cables which replicate the construction of very large bridges or building. Students can use this equipment to see which types of forces impact structures in different ways; including buckling, torsion and stress analysis where the theory is mathematically complex. For high force applications, the lab also houses ten Shimadzu Universal Testing machines that test qualities of different materials, including tensile and compressive testing. Students will learn Tensile and compressive testing Dynamic and static loading of structures Instrumentation of structures Composite material behaviour Project work For special project work, the lab is also connected to the Project Space meaning students can design, construct and test their own structures at model scale. Students have created a seven-metre cable-supported bridge, which can be altered allowing them to see for themselves how different builds and layouts can be affected by external forces.  Who uses this lab? Aerospace Engineering Civil and Structural Engineering Engineering Foundation Year Interdisciplinary Engineering (MEng Engineering) Materials Science and Engineering Mechanical Engineering What equipment is in the lab Gunt reaction frames. Arches and Suspension cables. Cantilever trusses. Deflection of a Beam. Normal/Shear Stresses in Beams. Plastic Hinge Formation. Plastic Portal Frame Collapse. Carbon fibre frames and linkages, 3 Storey Towers, Portals, Trusses Shimadzu 5 kN Universal Testing Machines (Tension, Compression, Flexural) Gunt Torsion Testers. Assortment of weights from 0.2g to 1Kg Pasco Equipment: Large Structures Set; 850 Universal Interface and software; Load Cell Amplifier; Load Cells; Displacement Sensor; Force Platform; Function Generator; Vibration Generator On level two Computing & Robotics The Diamond has over 1000 computers available for students to use in open-access areas and four computer labs designed specifically for teaching. The hi-spec lab has workstations that utilise sophisticated graphics cards and 3D-capable monitors. The largest of the computer labs features a purpose-built robot arena, enabling students to use several different robots to study artificial intelligence, and write Java, Python and C++ programs to drive them or manipulate them via visual programming tools. There are several different types of robot available for use in The Diamond within a purpose-built robot arena. NAO humanoid robots The NAO robots are extremely useful for teaching artificial intelligence, as they have a wide range of sensors and motors. They can be controlled using visual programming tools or more sophisticated coding with languages such as Python, C++ or Java. They can be programmed to do simple tasks such as walking, standing up and sitting down, but they can also do more complicated interactive functions such as face and voice recognition. Lego Mindstorm robots Made into basic vehicles, the Lego Mindstorm robots are used as a platform to learn Object-Oriented programming languages, such as Java. Due to the variety of sensors available, it is possible to get them to detect objects, follow lines and measure distances, all of which are good ways of learning a programming language. Who uses this lab? Aerospace Engineering Automatic Control & Systems Engineering Computer Science Mechanical Engineering What equipment is in the lab? 80 Lego Mindstorm robots 14 NAO humanoid robots Electronics & Control The Electronics and Control Laboratory gives students the practical skills required by industry and allows them to develop their understanding, from fundamental electronic components to sophisticated applications such as magnetic levitation and wireless communications. The facility enables students to design, build, test and evaluate a range of modern systems utilising many aspects of electrical, electronic and control systems hardware and software. The lab is equipped with high specification equipment from National Instruments (NI), Quanser and Keysight and includes the innovative and adaptive NI Educational Laboratory Virtual Instrumentation Suite (ELVIS), which allows a hands-on lab experience across the entire multi-disciplinary engineering curriculum. The experiments are wide-ranging and include designing micro-processors, signal analysis, large scale DC and AC motors, mechatronics, Internet of Things, Transformers, Power Electronics and Programmable Logic Controllers (PLCs). Who uses this lab? Aerospace Engineering Automatic Control & Systems Engineering Bioengineering Computer Science Electronic and Electrical Engineering Engineering Foundation Year Interdisciplinary Engineering - (MEng Engineering) Mechanical Engineering What equipment is in this lab? 72 workbenches, each including: NI Elvis; Oscilloscope; Waveform Generator; Bench Multimeter; Power Supply; Quanser servo and amplifier; Soldering Iron Network Analysers Digilent Nexys 4 FPGA Boards NI myDAQ LCR Meter Power Meter Source Measurement Unit Advanced Solder Station Voltera PCB Printer PCB Drills 3 phase machine sets PLC manufacturing rig Materials lab In the Materials Laboratory, students will learn about many types of materials, how they work and how their structures can be controlled. The lab houses equipment for analysing and testing a variety of material characteristics. Students will learn: Analysing and testing material characteristics Image metallurgic, ceramic and biological samples Observe nano-scale structures and atomic structures of materials Characterise the chemical structures of materials Annealing and curing of ceramic, metals and composites Who uses this lab? Aerospace Engineering  Civil and Structural Engineering Interdisciplinary Engineering (MEng Engineering) Materials Science and Engineering Mechanical Engineering What equipment is in the lab Hitachi TM3030Plus Tabletop Scanning Electron Microscope (SEM) Zwick Proline Z020 – Mechanical testing frames Zwick HIT50P – Charpy Impact testing instrument Zwick / Roell Indentec ZHV 30 – Hardness Indenter Thermo Scientific Nicolet iS5 – FTIR Spectrometer (Fourier Transform Infrared Spectrometer) TA Instruments DSC Q20 – Differential Scanning Calorimetry Bruker D2 Phaser – XRD Babyplast – Injection moulder Motic BA310Met-T Optical Microscop On level three Bioengineering - Bacterial The Bioengineering Bacterial Laboratory is equipped with the latest biomanufacturing technologies used in the pharmaceutical and bioscience industry. The laboratory provides students with industry-relevant facilities enabling the design, production and improvement of bioproducts, such as antibodies, enzymes, growth factors and vaccine antigens, used in the treatment of cancer, immune disorders, infections and disease. The laboratory has bench space for 40 students with regulated supplies of argon, helium and nitrogen, as well as natural gas and compressed air. It contains a fume cupboard, ice maker, autoclave sterilisation facilities and safety cabinet for sample preparation. Three shaking incubators provide optimal growth conditions for microbial cell culture and, in conjunction with The Diamond Pilot Plant, the bioprocess can be scaled-up using industrial microbial fermenters. For efficient disruption of cells, the laboratory also has a high-pressure homogeniser and for fast purification of proteins, peptides and nucleic acids there is a comprehensive Chromatography system. Further equipment helps students characterise the bioproduct they produce, enabling them to analyse proteins and DNA for investigation. Who uses this lab? Bioengineering Chemical Engineering Materials Science and Engineering What equipment is in the lab Microbial fermenters Chromotography systems (FPLC & HPLC) High pressure homogeniser Class II Biological Safety Cabinet for microbial cell culture Superspeed centrifuge (29,000 rpm, 100, 605 g, 6x 1L capacity) Shaking Incubators Horizontal gel electrophoresis systems for separating nucleic acids ChemiDoc imaging system for gels and blots Fluorescence plate reader Thermal cycler for PCR (polymerase chain reaction) UV-Vis spectrophotometers Ice Maker Autoclave for sterilization of glassware and media Bioengineering - Tissue The use of material for biological purposes – from catheter tubes to utilising titanium to aid ligament repair – requires a strong understanding of how such materials and the human body react. The Bioengineering-Tissue Laboratory has the capacity to test these boundaries and teach vocational bioengineering skills using high specification equipment. The laboratory is split into two teaching spaces; The traditional bench space is available for 40 students with regulated supplies of argon, nitrogen, carbon dioxide and helium alongside natural gas. Ten biological safety cabinets can each accommodate two scientists simultaneously. These enable students to learn and apply the aseptic technique for the preparation of medical samples and biomaterials, which is fundamental to cell biology and a highly marketable job skill. The tissue laboratory focuses on mammal cell culturing capabilities, using two static incubators that feature rapid response times and data logging capacity. In addition, a high specification shaking incubator provides the laboratory with space for shaking suspended cultures. The status and health of these cultures can then be monitored by the students using a clinical-grade metabolite analyser capable of monitoring six separate chemistries in one minute. The system enables the students to monitor fresh samples for live culture analysis or carry out a retrospective analysis of stored samples. In addition, the laboratory contains ten inverted phase-contrast microscopes equipped with digital cameras, which enable students to learn imaging techniques. High-level optical performance and fluorescent microscopy is also available, as well as the capacity to perform live-cell imaging Who uses this lab? Bioengineering Chemical Engineering Materials Science and Engineering What equipment is in the lab Class II Biological Safety Cabinets for mammalian cell culture Static Incubators Shaking Incubator Inverted phase contrast light microscopes with digital cameras Live cell imaging systems Fluorescence microscope Cryostat microtome for sectioning biological tissue Absorbance plate readers Mini bioreactors for mammalian cells (0.5L) ViCell automated cell counter Metabolite analyser Vertical gel electrophoresis system for separating proteins Gel Doc EZ imaging System for detecting protein and DNA in gels ADInstruments teaching system kits for measuring and recording physiological signals Fluids Engineering In the Fluids Engineering Lab, we investigate the ways in which a fluid (a material that flows with no fixed shape) interacts with its surroundings, allowing students with the opportunity to experiment with the principles governing the mechanics of fluids, namely air and water. The lab houses: A ten-metre long teaching flume capable of recirculating 117 tonnes of water an hour. The flume is used to simulate the behaviour of rivers, culverts, weirs and waves allowing students to study the principles of open channel flow 20 hydraulic benches so students can understand the effects of transportation or storage on fluids, such as flow measurement, turbulent and laminar flow, frictional losses, impact of jets and floating stability  20 computer-controlled pumps and turbine rigs so students can see the operation of a variety of pump and turbine designs and investigate the factors affecting their performance using specially created software four computer-controlled wind tunnels to demonstrate how the shape of an object, can affect lift, drag, pressure distribution, wake and separation  20 carbon-fibre teaching wind tunnels for simpler flow visualisation and friction experiments  Network of pipes and valves to explore how water and air move through them  Who uses the lab? Aerospace Engineering Chemical Engineering Civil and Structural Engineering Engineering Foundation Year Interdisciplinary Engineering (MEng Engineering) Materials Science and Engineering Mechanical Engineering What equipment is in the lab? 10m flume Cussons bench Diffusers Gunt pumps Hydrostatic carousel Hydraulic benches Network of pipes and specimen pipes Reynolds Number Wind Tunnels Cussons Centre of pressure apparatus Thermodynamics & Mechanics The Thermodynamics and Mechanics Laboratory equips the students with the practical understanding and experience involved with the modern engineering concept of energy efficiency. Heat transfer is examined in compressors and heat exchangers, and through special laboratory equipment such as the boiling and radiation rigs. Students are able to compare theory with experimental results and gain a better understanding of energy transfer by using apparatus that are modelled on actual industrial equipment. The laboratory is also home to a number of dynamics experiments where the movement of mechanical systems and structures is examined. Gaining an understanding of the issues of force, acceleration, friction and vibration and how these play an important part in the design and manufacture of mechanical structures such as supporting beams, aeroplane wings and turbine blades. Who uses this lab? Aerospace Engineering Chemical Engineering Engineering Foundation Year Interdisciplinary Engineering (MEng Engineering) Mechanical Engineering What equipment is in the lab? Hilton Heat Exchanger Rig Band Brake & Gearbox Apparatus Slider Crank Apparatus Gunt Condensing rig Gunt Boiling Rig Acoustics Vibrating beam Tap testing of steam turbine blades Related information The Diamond floor plans Online resources Flagship institutes The University’s four flagship institutes bring together our key strengths to tackle global issues, turning interdisciplinary and translational research into real-world solutions. Flagship institutes The University of Sheffield Undergraduate courses Postgraduate taught courses PhD study Accommodation International students Jobs Information for visitors Support us Student hub Staff hub Alumni Departments and services Students' Union Library Contact The University of Sheffield Western Bank Sheffield S10 2TN +44 114 222 2000 Facebook Twitter Youtube Instagram Linkedin Weibo Footer menu Feedback Privacy Accessibility FOI Modern slavery statement © 2021 The University of Sheffield