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JUNE - 2021
Engineering Labs Directory for Industrial Services
Page | 2
Table of Contents Introduction ................................................................................................................... 4
Vision ............................................................................................................................. 5
Mission ........................................................................................................................... 5
Faculty Resources & Capacity ..................................................................................... 6
Consultation Areas ....................................................................................................... 7
Knowledge Transfer ...................................................................................................... 9
Chemical Engineering Labs ....................................................................................... 13
5-in-1 Environmental Meter ........................................................................................ 14
Digital psychrometer .................................................................................................. 15
Water conditioning Photometer .................................................................................. 16
Heat Stress Meter ...................................................................................................... 17
Turbidity Meter ........................................................................................................... 18
Aerosol Monitor .......................................................................................................... 19
Tensile Machine ......................................................................................................... 20
Distillation of crude petroleum and gasoline .............................................................. 21
Salt Crude Analyzer ................................................................................................... 22
Flash and Fire point app. ........................................................................................... 23
Ashing Furnace (Ash content from petroleum product ............................................... 24
Conradson carbon residue ......................................................................................... 25
Civil Engineering Labs ................................................................................................ 26
Total Station .............................................................................................................. 27
Level .......................................................................................................................... 28
GPS .......................................................................................................................... 29
Compressive testing machine .................................................................................... 30
Non-destructive tests ................................................................................................. 31
Beam bending apparatus ........................................................................................... 32
Sieve shaker apparatus ............................................................................................. 33
Direct shear apparatus ............................................................................................... 34
Triaxial apparatus ...................................................................................................... 35
Page | 3
Casagrande apparatus .............................................................................................. 36
Mechanical Engineering Labs .................................................................................... 37
Exhaust Gas Analyser with internal line printer ......................................................... 38
Charpy Impact Test Machine ..................................................................................... 39
Universal Testing Machine ......................................................................................... 40
Micro Hardness Tester ............................................................................................... 41
Heat Treatment Furnace ............................................................................................ 42
Manual Polishing Machine ......................................................................................... 43
VersaSTAT 4 - Potentiostat Galvanostat ................................................................... 44
Olympus Microscope ................................................................................................. 46
Husky Robot platform ............................................................................................... 47
Tile Abrasion Testing Machine ................................................................................... 48
Page | 4
Introduction
The Faculty of Engineering at BUE is embarking on a new stage of its development,
whereby, it is now of the utmost importance to extend its resources, facilities and expertise
to support the industry and the community at large. The Faculty is emphasizing its role
towards the community through engagement in a dialogue that would provide
collaboration schemes and partnerships to help foster innovative solutions to persisting
industrial challenges.
The Faculty is aiming at launching multifaceted professional dialogue with potential
industrial partners, which would engage both sides in a fruitful collaborative scheme. In
addition, the Faculty is aiming at identifying a range of services that could be offered to
the community considering its current expertise.
This directory is intended to provide a comprehensive description of current
expertise, knowledge transfer technical workshops and testing facilities that are useful in
a range of industrial applications.
The directory should be viewed with its supplement directory “Engineering Academic
Staff Directory”
Page | 5
Vision
“To be a focal point of knowledge, solutions, facilities and consulting services to the
engineering industry and the community across a broad subject range.”
Mission
“To offer high quality expertise to stimulate and support demand for innovative
solutions, knowledge transfer and collaboration in support of economic development.”
Page | 6
Faculty Resources & Capacity
The Faculty of Engineering (FoE) houses five active departments, in addition to a
basic sciences service department. All engineering departments offer a wide range of
industrial, applied and consulting expertise that are available for the engineering
community to help address industrial challenges.
The collective expertise ranges from analysis and design of standard engineering
projects to the employment of state-of-the-art technologies in modelling complex
engineering problems.
Multi-disciplinary teams are trained to work in harmony to analyse cross boundary
engineering systems.
The Faculty offers its expertise through a range of engaging mechanisms such
as knowledge commercialization, knowledge transfer and providing comprehensive
testing services through its state-of-the art testing facilities.
Page | 7
Consultation Areas
Architectural Engineering
• Post Occupancy Evaluation of Buildings in use;
• Spatial analysis of Buildings, Urban Spaces and Cities using space syntax;
• Urban & Heritage Conservation;
• Environmental Simulation;
• Acoustical Analysis;
• Urban Design / Planning;
• Socio, Behavior studies & enthuses in work place & open space;
• Environmental Impact Assessment;
• Sustainable Design;
• Ecological urban & landscape design.
Chemical Engineering
• Qualifications for accreditation to ISO management systems;
• Environmental remediation;
• Simulation of urea plants, steam reforming plants and Polystyrene plants;
• Modeling, simulation and optimization of Direct Reduced Iron Plants;
• Energy Conservation in Cement industry.
Civil Engineering
• Analysis & Design of lateral load resisting systems;
• Analysis of Floor vibrations, lateral drifts and deflections;
• Evaluation of existing structures;
• Design, Review and Evaluation of pre-stressed and post-tensioned concrete
structures;
• Innovative and sustainable construction materials;
• Development of special steel connections;
• Design and review of steel structural systems;
• Parametric investigation of soil profiles;
• Stability of slopes and ground water evaluation;
• Analysis of soil-structure interaction problems;
• Reliability assessment of structural elements and systems;
• Analysis & Design of smart structural systems.
Page | 8
Electrical Engineering
• Design and Optimization of:
a. Antennas Systems for various applications;
b. RF/Microwave Front-Ends for Various applications;
c. RF/Microwave Resonators and Filters;
d. Advanced reconfigurable radio systems, including antennas, filters and RF
Front-Ends;
e. Ground-Penetrating Radar RF Front-End;
• Optimization of special radio links;
• Design of low voltage and medium voltage Networks;
• Design of light current systems (Fire Alarm, Surveillance Systems);
• Measurements of Electromagnetic field exposure and determination of hot areas.
Mechanical Engineering
• Control & Instrumentation Solutions for Industrial Plants;
• Hydraulic and Pneumatic Control;
• Installation and Commissioning of Boilers, Heat Exchanger and Engines;
• Fuel Combustion;
• Machinery Failure Analysis;
• Mechanical Design of Machinery;
• Material Characterization;
• Water Desalination;
• Lean Manufacturing;
• Lean- Six Sigma;
• Maintenance & Material Management.
Page | 9
Knowledge Transfer
One of the important modes of community service is knowledge transfer through
training workshops that are directed towards practicing engineers. Such workshops are
intended to keep engineers up-to-date with recent developments in their profession. In
addition, such workshops would provide a method for expanding the professional
backgrounds of practicing engineers. The Faculty of Engineering at BUE holds the
necessary expertise to offer a wide range of such training workshops.
Page | 10
Knowledge Transfer Workshops Architectural Engineering
• Parametric modeling:
• Post Occupancy Evaluation;
• Spatial Analysis of Architectural and Urban Spaces;
• Environmental Simulation and Analysis using ECO-Tect;
• Sketching, Water coloring and visual design;
• Green Architecture & Sustainability;
• Modern Trends in Architecture Design;
• Façade, New Building Materials and Contemporary finishes;
• Environmental Impact Assessment;
• Acoustics and noise control;
• Aural Architecture and Soundscape;
• Zero Energy Communities.
Chemical Engineering
• Corrosion Protection;
• Awareness and internal audit of ISO management systems;
• Design and operation of ammonia and urea plants;
• Natural Gas Processing;
• Petroleum refinery operations;
• Energy Conservation in the chemical industries;
• Fundamentals of desalination.
Civil Engineering
• Lateral loads & Lateral Load Resisting Systems;
• Pre-stressed Concrete Design;
• RC Design using EC2 and ACI;
• Surveying Equipment Training workshops;
o Total Station;
o GPS Equipment;
o GIS Equipment;
• Geotechnical Equipment Training;
• Soil Testing for site engineers and consultants;
• Structural Reliability Assessment;
• Smart Structural Systems.
Page | 11
• Bridge Engineering
• Design of blast resistant structures
Electrical Engineering
• Antenna Design and Optimization;
• Advanced Microwave Resonator/Filters design;
• Advanced Techniques for Reconfigurable Microwave Filters and Antennas;
• RF/Microwave Front-End Architecture Design and Optimization;
• Ground-Penetrating Radar RF front-End Design;
• Reconfigurable RF Front-End, Antennas and RF Filters;
• Use of Simulation Software HFSS in Electromagnetic problems;
• Power System Design & Analysis;
• Electrical Safety;
• Safety issues in Low Voltage Installations;
• Transformer Operation & Maintenance;
• Supervision of execution of overhead lines networks;
• Safe Operation & Maintenance of circuit breakers and switchgear;
• Type & Care of overhead lines tools.
Mechanical Engineering
• Reactive Power Control in Factories;
• Inventory Control;
• Manual Assembly Systems;
• ISO- Quality Management Standards;
• Operation Management;
• Six Sigma;
• Planning and Control of Maintenance Processes;
• Statistical Quality Control;
• Design of Jigs and Fixture for Production Lines;
• Machinery Failure Analysis and Troubleshooting;
• Non-Traditional Machining Processes;
• Theory of Metal cutting and Optimization;
• Hydraulic and Pneumatic Control;
• Control and Mechatronics Applications in Thermal Plants;
• Process Control Instrumentation, fundamentals, operations and maintenance;
• Advanced Measurement and Control Systems;
• Operation, Control and Maintenance in Boilers;
Page | 12
• Vibration Analysis;
• Fundamentals of Design and Operation of Combustion Equipment;
• Energy Conversion and Energy Audits;
• Reading and Interpreting Machine Drawings for Technicians;
• Modern Techniques for Machining of Hard and Brittle Alloys;
• Preparation and Characterization of NANO-Particles;
• PLC;
• Industrial Applications of Artificial Intelligence;
• Robotics;
• Material Testing, Fatigue and Heat Treatment.
Page | 13
Chemical Engineering Labs
Page | 14
5-in-1 Environmental Meter
Parameter Value
Sound
Accuracy ±2.0dB
Resolution 0.1dB
Measurement range 35dB - 130dB
Light
Measuring range 0 Lux - 200K Lux, 0Fc - 20KFc
Accuracy ±4% rdg ±0.5%f.s. (<10,000Lux) ±5% rdg
±10dgts. (>10,000Lux)
Air Velocity
Air velocity range 0.5m/s - 30.0m/s
Air velocity accuracy ±3%
Temperature
Measuring range 40 - 70℃ (-40 - 158℉)
Accuracy ±2.0℃,±3.6℉
Humidity
Measurement Range 10 - 95%RH
Accuracy Accuracy: ±5RH%
Measures Temperature, Humidity, Light, Air velocity, & Sound.
Page | 15
Digital psychrometer
1. Simultaneous display of %RH, Temperature and Dew point or Wet Bulb or Probe
Temperature 2. Unique sensor cap design twists to closed position for protection during storage 3. Switchable °F/°C temperature units with 0.1° resolution 4. Auto power off to save battery life 5. Includes external temperature probe
Measures both the wet bulb and dry bulb temperatures
Page | 16
Water conditioning Photometer
Parameter Value
Display 128 x 64 pixel LCD with backlight
Battery Type / Life 3.7 VDC Li-polymer rechargeable battery / >500 photometric measurements or 50 hours
of continuous pH measurement
Power Supply 5 VDC USB 2.0 power adapter with USB-A to micro-USB-B cable (included)
Measures most common parameters in water quality monitoring
.
Page | 17
Heat Stress Meter
Parameter Value
TG - Black Globe Temperature 32 to 176°F / 0 to 80°C
Accuracy ±1.1°F/0.6°C
TA - Air Temperature 32 to 122ºF / 0 to 50ºC
Accuracy ±1.5°F/0.8°C
Relative Humidity 1 to 99%RH
Accuracy ±3%RH
Dew Point -31.5 to 120.1°F / -35.3 to 48.9°C
Accuracy 0.1°
Measures most common parameters in water quality monitoring
Page | 18
Turbidity Meter
Parameter Value
Range 0-50 NTU and 0-1000 NTU
Accuracy +1 % of full scale
Resolution 12 bit
Method Nephelometer with correction
Power Internal 9VDC battery
Warm-up Time 3 seconds
Operating Temperature 32 to 122°F (0 to +50°C)
Materials 306 sainless steel, delrin, Sapphire optical windows, Polyurethane jacketed cable.
Measure the turbidity in liquids
Page | 19
Aerosol Monitor
1. The DustTrak™ II Aerosol Monitor 8530 is a desktop battery-operated, data-logging,
single-channel, light-scattering laser photometer that gives you real-time aerosol mass readings and collects a gravimetric sample. It uses a sheath air system that isolates the aerosol in the optics chamber to keep the optics clean for improved reliability and low maintenance.
2. It is suitable for clean office settings as well as harsh industrial workplaces, construction and environmental sites, and other outdoor applications. The DustTrak II Aerosol Monitor measures aerosol contaminants such as dust, smoke, fumes, and mists.
Measures aerosol contaminants such as dust, smoke, fumes, and mists
Page | 20
Tensile Machine
Parameter Value
Force 1-300
Speed 0.005-5% F.S/S
Accuracy 0.5%--0.5%
Power Electronic
Tensile, Compression and Bending
Page | 21
Distillation of crude petroleum and gasoline
1. Conforms to the specifications of: ASTM D86, D216, D233, D447, D850, D1078, E133;
IP 123, 195; ISO 3405; DIN 51751; FTM 791- 1001, 791-1015; NF M 07-002
The sample is evaporated and condensed under controlled conditions, and observations are made of the temperatures at which various percentages are recovered and/or the percentages recovered at specified temperatures.
Page | 22
Salt Crude Analyzer
Parameter Value
Conductivity range 0.0 to 151 lbs/1000bbl (Res: 0.1 lbs/1000bbl) 0.0 to 430.0 g/m3 (Res: 0.1 g/m3)
Temperature range -20 ºC to 150 ºC (res: 0.1 ºC)
Power 9 volt dc battery or mains adaptor (110/120/220/240 V, 50/60 Hz adaptor
supplied)
Size (HxWxD) 20 x 7 x 3.5 cm
Weight 1.6 kg
Salt content is determined by measuring the conductivity of a solution of crude oil in a polar solvent when subjected to an alternating electrical current and is obtained by comparison of the resulting conductance to a calibration curve of known salt mixtures.
Page | 23
Flash and Fire point app.
This apparatus is used for determination of flash points of 0 samples, whose flash points are below +49 C. The apparatus Made of Copper, and consists of a brass cup and cover fitted with shutter mechanism, Test Flame arrangement, Hand operated stirrer, Thermometer socket, Water jacket electrically heated. COMPLIANCE IS:1448, ASTMD92, IP-36, IP-403, BS2000 P-403, Bs4689, DIN51 376, ISO 2592
Flash & Fire Point Apparatus used for determining the flash point of fuel oils and lubricating oil, bitumen other than cutback bitumen and suspension of solids in liquids, having a flash point above 49°C. The apparatus consists of brass test cup with handle removable cup cover with the spring operated rotated shutter having the oil test jet flame device, the stirrer with the flexible shaft. The assembly rests in Air Bath which is covered with dome shape metal top. The cup assembly is positioned in a cast iron air bath, fitted with a chrome plated brass top having the electric heater with the temperature controller. Suitable for operation on 220V, 1Ph, 50Hz AC Supply
Page | 24
Ashing Furnace (Ash content from petroleum product
Parameter Value
Frequency 50/60 Hz
Temperature (Metric) 100°C to 1200°C
Voltage 208/240 V
Electrical Requirements 208/240 V 50/60 Hz
An economical, rapid heating and lightweight furnace
Page | 25
Conradson carbon residue
Conforms to the specifications of: ASTM D189, D6074; ANS Z-11.25; IP 13; ISO 6615; DIN 51551; FTM 791-5001; NF T 60-116
Provides an indication of relative coke forming properties of petroleum oils. The residue remaining after a specified period of evaporation and pyrolysis is calculated as a percentage of the original sample. Tests petroleum products to determine the amount of carbon residue left after evaporation and pyrolysis of an oil and to indicate relative coke-forming propensities. Includes burner, tripod, refractory block, nickel chrome triangle, nickel crucible and cover, Skidmore crucible, porcelain crucible and monel hood and bridge. Component parts available separately.
Page | 26
Civil Engineering Labs
Page | 27
Total Station
Parameter Value
Available types Trimble M3 2”, 3”,5”
Topcon GTS - 235 N
Measurement range Measurement range with no haze, visibility
over 40 km (25 miles)
Prism mode
Reflector sheet (5 cm x 5 cm) 300 m (984 ft)
Mini prism 3,000 m (9,800 ft) Standard prism (1P) 5,000 m (16,400 ft)
Direct-Reflex mode Reference target 200 m (656 ft)
Prism mode
± (3 + 2 ppm × D) mm* (–10 °C to +40°C) ± (3 + 3 ppm × D) mm* (–20 °C to –10 °C),
(+40 °C to +50 °C) Direct-Reflex ± (5 + 2 ppm × D) mm (–10 °C to +40 °C) ± (5 + 3 ppm × D) mm (–20 °C to –10
°C), (+40 °C to +50 °C)
Standard mode Prism mode ± (10 + 5 ppm × D) mm
Direct-reflex mode ± (10 + 5 ppm × D) mm
1. Surveying works and land division 2. Establishing Control points for projects 3. Survey works for large facilities 4. Road survey works, longitudinal and cross sectors 5. Surveying works and land division
Page | 28
Level
Parameter Value
Available types Optical level Topcon At-G4.
Electronic level Topcon At-G4
Electronic measurement
invar precision bar code staff 0.3 mm 0.7mm -foldable bar code staff 1.0 mm 1.3 mm
- Visual measurement •foldable staff, metric scale 1.5 mm 2.0 mm
Accuracy and distance Electronic measurement with a 20 m sighting
distance 20 mm 25 mm • invar precision bar code staff 25 mm 30mm
Foldable bar code staff Visual measurement: 0.2 mm 0,3 mm
• foldable staff, metric scale
1. Leveling works and contour mapping 2. Detect and following up the tendencies of the buildings 3. Detect the movement of Buildings and bridges 4. Road survey works, longitudinal and cross sectors
Page | 29
GPS
Parameter Value
Available types GPS-R8 Model 4.
GPS-R7 5700
Code differential GNSS positioning
Horizontal 0.25 m + 1 ppm RMS Vertical 0.50 m + 1 ppm RMS SBAS differential positioning accuracy
typically <5 m 3DRMS
Static GNSS surveying High-Precision Static
Horizontal 3 mm + 0.1 ppm RMS Vertical 3.5 mm + 0.4 ppm RMS
Static and fast static Horizontal 3 mm + 0.5 ppm RMS Vertical 5 mm + 0.5 ppm RMS
Postprocessed Kinematic (PPK) GNSS surveying
Horizontal 8 mm + 1 ppm RMS Vertical 15 mm + 1 ppm RMS
Real Time Kinematic surveying Single Baseline <30 km
Horizontal 8 mm + 1 ppm RMS Vertical 15 mm + 1 ppm RMS
Network RTK Horizontal 8 mm + 0.5 ppm RMS Vertical 15 mm + 0.5 ppm RMS
1. Creation of survey databases with geographic information systems 2. remote sensing applications in detecting spatial changes.
Page | 30
Compressive testing machine
Parameter Value
Measuring Range .1500kN
2000kN
1. Qualifying Test for OPC: compressive strength of OPC mortar specimens 2. Design of concrete mixture according to the required strength and available materials 3. Characteristic compressive strength for standard concrete cubes 4. Characteristic compressive strength for standard concrete cylinders
Page | 31
Non-destructive tests
Parameter Value
Available devices Schmidt hammer
Ultrasonic apparatus
Non Destructive Test NDT: Schemedit rebound hammer test for hardened concrete
Page | 32
Beam bending apparatus
Parameter Value
Measuring Range .1-point load
2-point load
Modulus of rupture for standard concrete beams
Page | 33
Sieve shaker apparatus
Parameter Value
Measuring Range 9 standard sieves.
1. Qualifying Tests for fine aggregate (Grading, volumetric weight, specific gravity, % fine
materials by weight)
Qualifying Tests for Coarse aggregate (Grading, volumetric weight, specific gravity, % fine materials by weight)
Page | 34
Direct shear apparatus
Parameter Value
Measuring Range .
Investigating soil capacity
Page | 35
Triaxial apparatus
Parameter Value
Measuring Range .
Investigating soil capacity
Page | 36
Casagrande apparatus
Parameter Value
Measuring Range .
Atterberg Limits
Page | 37
Mechanical Engineering Labs
Page | 38
Exhaust Gas Analyser with internal line printer
Parameter Value
Measuring Range CO 0 – 10 % Vol., CO2 0 – 20 % Vol.
HC 0 – 2500 ppm Vol., O2 0 – 22 % Vol.
Lambda calculation 0 - 9,999
RPM measuring range 400 – 9999
Temperature measuring range 0 – 130 °C
Working temperature 5 – 45 °C
Warm up time 30s
Accuracy OIML class 1,0 (Organization International de
Métrologie Légale)
Dimensions
(WxHxD): 258mm x 330mm x 203mm (with base + printer
Weight 6.5 KG
Connectivity Wired/Bluetooth/Wireless
Measuring the exhaust gases and emissions produced by an engine and determine the environmental effects of these gases and understand what factors increase or decrease them.
Page | 39
Charpy Impact Test Machine
Parameter Value
Impact Energy 500J, 250J
Dial Graduation Range 0-500J~5J, 0-250J~2.5J
Pendulum moment 268 N.m, 134 N.M
Pendulum Preparing Angle 150
Distance between pendulum center and impact point
800 mm
Impact Velocity 5.4
Specimen Dimension 10x10x55mm
Charpy impact testing
Page | 40
Universal Testing Machine
Parameter Value
Model WDW-100D
Max Testing Force 100 KN
Control Accuracy ±1%
Pull & Push Space 600 mm
Crosshead Moving Range 1100 mm
Test Width 400 mm
Wedge Grip Body One suit
Flat Jaw 0~7, 7~14, 14~21 mm
Round Jaw Ф4~Ф9,Ф9~Ф14, Ф14~Ф20 mm
Bending Clamp One suit
Extensometer 10/50mm (optional)
1. Tensile strength testing
2. Compression strength testing
3. 3-Point bending testing
Page | 41
Micro Hardness Tester
Parameter Value
Test load range with test load extension 1g -10 kg (0.0098 – 98.1 N)
Turret 6-fold, Motor-driven
Software Qpix T12
Test anvil / Cross slide Ф 100 mm
Traverse path X/Y/Z Z 145 mm
Max. work piece weight 50 kg
Lenses 10x, 20x, 40x, 65x
Penetrator Vickers
Sample holder 1-fold, 4-fold (Ф 30 / 40 / 50 mm), 8-fold (Ф 30
/ 40 mm)
Cross anvil X 300 x Y150 mm
Vickers microhardness testing at various loads (1g -10 kg) and times.
Page | 42
Heat Treatment Furnace
Parameter Value
Inner Chamber Dimensions W 175 x H 150 x D 300 mm
Max. furnace temperature 1200°C (as option 1300 resp. 1340°C)
Heating Power 3.2 KW
Heat treatment up to 1200 C
Page | 43
Manual Polishing Machine
Parameter Value
Model LABPOL DUO 12
Grinding platens 203mm
Water Feed Single
1. Samples grinding with different grinding papers grades up to 40002. Samples Polishing with alumina (0.3 µm) or diamond suspension (0.6 µm)
Page | 44
VersaSTAT 4 - Potentiostat Galvanostat
Parameter Value
System performance
Minimum Time Base: 2 μs
Minimum Potential Step: 1 μV
Noise and Ripple < 50 μV rms typical
Minimum Current Range 4 nA with 50X gain
Minimum Current Resolution 120 fA
Power Amplifier
Compliance Voltage + 12 V
Maximum Current + 1 A (+/-2A with 2A Option)
Voltage Control
Applied Voltage Range + 10 V maximum
Applied Voltage Resolution + 10 mV = 300 nV
Applied Voltage Accuracy + 0.2% of value + 2mV
Maximum Scan Rate 5000V/s Staircase Voltammetry (10mV step)
Current Control
Applied Current Range + full scale per range
Applied Current Resolution + 1/32,000 x full scale
Applied Current Accuracy + 0.2% of range +/-200 pA
Minimum Current Range/Resolution + 4 nA / 120 fA
Differential Electrometer
Input Bias Current < 5 pA at 25oC
Page | 45
Maximum Voltage Range + 10 V maximum
Input Voltage Differential + 10 V
Bandwidth -3 dB @ > 10 MHz
Common Mode Rejection 60 dB at 100 kHz
Input Impedance > 1012 Ω in parallel with < 5 pF
Voltage Measurement
Voltage Range + 10 V maximum
Minimum Voltage Resolution + 6 uV
Voltage Accuracy + 0.2% reading, + 2 mV
Current Measurement
Range 2A to 4 nA
Accuracy 20 μA to 200 mA < 0.2% full scale
200 nA & 2μA < 0.5% + 1nA full scale 4nA and 20nA, <5% + 50 pA
Frequency Response 20 mA -3 dB at > 1 MHz, 1K source imp.
20 μA -3 dB at > 100 kHz, 100K source imp.
IR Compensation Range
Positive Feedback Range 50 MΩ to 5 Ω depending on current range
Dynamic iR 5s/pt rate limit (limited to Corrosion
techniques)
Potential/Current Control (DACs)
Resolution 16 bits
Range (potentiostat) + 10V, (galvanostat) + 100% of
full-scale current
Impedance Specifications
Frequency Range 10 μHz – 1 MHz
AC Voltage Amplitude 0.1mV RMS - 1000mV RMS
Electrochemical techniques provided by the VersaSTAT 4 that are widely used in corrosion applications include:
1. Linear Polarization Resistance (LPR)
2. Electrochemical Impedance Spectroscopy (EIS)
3. and EIS at various polarization levels
Page | 46
Olympus Microscope
Parameter Value
Optical system UIS2 (UIS) (Universal Infinity System)
Reflected light illumination
• Reflected light illuminator (BX-KMA-LED, BX-AKMA-LED), tube magnification 1X,
super widefield compatible.
• Available observations:
• Reflected light brightfield.
• Reflected light Nomarski DIC.
• 3 Reflected simplified polarized light.
• Reflected light oblique
Focusing system• Stroke per rotation: 0.1 mm (fine), 17.8
mm (coarse)
• Full stroke range: 25 mm
Revolving nosepiece
• U-5RE-2, U-ORE
• DIC slider insertion type
• U-DORE, U-DORE-ESD-2, U-D7RE, etc.
Observation tube
U-B130-2 – Widefield binocular
FN 22
Tube tilting angle: Fixed
Interpupillary distance adjustment: 50 to 76 mm
StageU-SIC4R2/SIC4L2 4 x 4 inch stage
Stroke: 100 Y-axis x 105 X-axis mm
1. To characterize, examine, and capture the microstructure of the specimens with different magnifications (5X, 10X, 20X, 50X, and 100X).
2. Image Analysis
Page | 47
Husky Robot platform
Parameter Value
Speed 1.0 m/s
Runtime 3 hours
User power 5v, 12v and 24v fused at 5a each
Driver & APIS Ros melodic, RPS kinetic, C++ library,
MathWorks
1. Apply quick prototyping for any new ideas related to automated guided vehicles 2. Applications related to factory material handling automation 3. Applications related to agricultural automation
Page | 48
Tile Abrasion Testing Machine
Parameter Value
Testing load range 10~1000N (Stepless adjustable)
Relative error of load indicating value ± 1%
Friction torque measuring range 2 N.m
Relative friction indicating error ± 2%
Friction load cell 300 N
Friction arm distance 50mm
Rotating speed range of spindle 0.1 ~2000r/min
Rotating speed error of spindle ± 1%
Max. torque of main spindle axis motor 5 N.m
Temperature control range Room temperature~200°C
Time control range 1S~999 hours
Testing revolution control range 109 revolution randomly set
Max. Distance between spindle and coupling plate
75mm
Friction spot Microscope, Reading precision
0.01mm
The tile abrasion testing machine can simulate rolling, sliding and combined movement under different contact pressures to complete point, line and plane simulating tests. It can be used to evaluate the friction and wear performance of lubricants, metal, plastics, coating, rubber, ceramics etc. Also, it can be tested under dry condition, but also the needs of simulating evaluation to new material development and new technology research.
Page | 49