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MINIFLASH - The new Age of Flashpoint Testing
MINIFLASH is the only series of instruments for the automatic determination of the flashpoint of liquids and solid samples according to the advanced ASTM D7094 standard. This procedure describes the “Standard Test Method for Flash-Point by Modified Continuously Closed Cup (MCCCFP)”, which offers the highest repeatability and reproducibility and an excellent correlation to the D93 Pensky-Martens method: "there is no statistically significant bias observed between ASTM D7094 and ASTM D93 Procedure A” as concluded during the last Round Robin.
Test results are equivalent to other well known standards such as Abel and TAG, and thanks to its unique design MINIFLASH can be used for more difficult applications such as flash-point testing of contaminated samples like diesel fuel in lube oil or gasoline in diesel fuel and for biodiesel testing.
Its continuously closed cup design and small sample volume of only 2 mL offers maximum safety, avoids offensive fumes in the testing area and reduces sample waste.
Due to the true portability and rugged housing, the MINIFLASH is also the perfect solution for mobile labs and military applications.
Features
* Complies exclusively to ASTM D 7094 and ASTM D6450 (Flash-Point by Continuously Closed Cup)
* Maximum Safety: only 2ml sample, no open flame, continuously closed cup, no offensive vapors
* Excellent Correlation to ASTM D93, D56, ISO2719 (EN/DIN 22719), ISO13736, IP170
* Approved by: US D.O.T., RCRA, NATO and the US NAVY
* Approved for the ASTM specifications of recycled fuel and biodiesel
* The world wide standard in the flavors and fragrances industry |
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PM 4
Semi-Automatic Flash-Point Test with Closed Cup according Pensky-Martens Method
Method A:
for distillate fuels (diesel, kerosene, heating oil, turbine fuels), new lubricating oils, professional paints, vanishes and other homogeneous liquids.
Method B:
for residual fuel oils, cutback residual, used lubricating oils, non-homogeneous materials like mixtures of petroleum liquids & solids, surface-film building petroleum liquids or liquids with a viscosity above 5.5 cSt at +40°C. Used in shipping & safety regulations to define flammable and combustible materials.
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CLA 4
Automatic Flash- and Fire-Point with Open Cup according Cleveland Method
This flash-point and fire-point test method measures the tendency of a test specimen to form a flammable mixture with air.
Suitable for viscous materials having a flash-point between +79 °C (175 °F) and +400 °C (752 °F) except fuel oils.
Used to define the hazards of flammable and combustible materials used in shipping and safety regulations.
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PMA 4
Automatic Flash-Point Test with Closed Cup according Pensky-Martens Method
Method A:
for distillate fuels (diesel, kerosene, heating oil, turbine fuels), new lubricating oils, paints, vanishes and other homogeneous liquids.
Method B:
for residual fuel oils, cutback residual, used lubricating oils, non-homogeneous materials like mixtures of petroleum liquids & solids, surface-film building petroleum liquids or liquids with a viscosity above 5.5 cSt at +40°C. Used in shipping & safety regulations to define flammable and combustible materials.
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ABA 4
(air or liquid cooled)
Automatic Flash-Point Test with Closed Cup according Abel Method
The Abel-Method
describes the determination of the closed-cup flash-point of petroleum products and other liquids having flash-points between -30 °C and +70 °C.
Further possible:
- the Equilibrium-Method
- the Abel-Pensky-Method
Suitable for: Biofuel, Fuel, Paint, Solvent, Varnish |
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Pendulum Type Impulsion Experimental Machine is suitable for testing the impulsion toughness of metallic materials. Model CBD electronic impulsion experimental machine adopts Inter monolithic processor 89C52 and 89C51 as the major CPU to carry out the process control, data processing and printing of impulsion esperiments. The experiment is carried out automatically, so are striking and lifting the pendulum.Miniprinter is equipped so that the test risults are easy to be recorded. Automatically recording test results.It can handle impulsion experiments continually.
Main Specifications:
1. Maximum impact energy: 300J
2. Impact speed: 5.2m/s
3. Presaging angle of the pendulum: 150°
4. Distance from the center of tested specimen: 750mm
5. Arc radius of the impulsion cutter: 2mm
6. Angle of the impulsion cutter: 30°
7. Angle definition: 0.1°
8. Power: 300w 380V ± 10%
9. Weight:900kg
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Tinius Olsen manufactures a range of different pendulum impact test that can be easily changed from a Charpy configuration to an Izod configuration. These professional testers come in a couple of capacities and are designed primarily for either plastics or metals impact testing.
All testing hardware is fully complemented by Tinius Olsen developed professional software that turns your hardware into a sophisticated quality analysis system. Be sure to examine the software products to determine which package is right for your application. |
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Max impact energy(J): 150, 300, 450, 600, 750, 3000
Features:
The model ZBC2000 series pendulum impact tester comes from SANS pendulum impact industrial testing machines series family, fashionable design and complete assembly with SANS high technology satisfied with impact resistance tests of metal material under dynamic loading, It is widely applied into the following industries: manufacturer of metal material, quality control of products, institutes and colleges, R&D.
Comply with ISO R148, ISO R83, EN10045, ASTM E23
Optional computer with software control is available to realize semiautomatic operation. Operator only need charge specimens. Others can be controlled by software.
Optional specimen feeding system is available. Combined with computer and software, fully automatic operation can be realized.
Optional cooling chamber is available to satisfy cold specimen test down to -100 OC |
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RKA 5
Automatic Softening-Point Test according Ring & Ball Method
Ready-to-Go Unit to determine the temperature at which a substance attains a particular degree of softness.
Suitable for bitumen & bituminous binders, filler aggregates used in bituminous mixtures, binders for paints and varnishes and resins derived from naval stores. |
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When developing any solvent based liquids such as coatings or perfumes, it is imperative that the flashpoint is determined in order to meet the stringent regulations set by most governments and that this value is declared on a material data sheet.
Elcometer 6910/1 Setaflash Series 3 Closed Cup Professional tester
This closed cup flash tester offers the fastest and msot accurate flash point instrument at a cost effective price. Test parameters are set via the keypad or the default 'auto' values can be used for standard conditions.
Elcometer 6910/2 Setaflash Series 3 Open Cup Tester
The open cup tester is generally similar to the Elcometer 6910/1 but allows the user to determin flash/no flash finite determinations or sustained combustion tests.
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| Impact testing is designed to measure the performance of an object under high-rate loading. Instron offers a complete range of proven solutions for impact testing both raw material specimens and finished components. Our family of advanced instruments includes: instrumented drop weight towers, servohydraulic high rate systems, and pendulum industrial testers. |
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Mainly used to determine the anti-impact capability of ferrous metal materials with high toughness, especially for steel and iron and their alloy, under dynamic load.
This machine can be operated semi-automatically. The pendulum of the machine can be raised or released automatically. Be applicable for continuing testing in different kinds of laboratories and other metallurgy industrial manufactories.
It is designed and developed according to national standard GB/T3808-2002 (ISO148-1998) "Pendulum Impact Industrial testing machine" |
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| Taber's Multi-Finger Scratch / Mar Professional tester is based on the popular "Ford 5-Finger Scratch and Mar Tester" specified in automotive test requirements. It is typically used to measure the relative resistance or susceptibility of a plastic surface to scratching, marring, gouging, scraping and other similar physical damage. Test samples are mounted to a pneumatically driven, moveable sled which drives the sample at a fixed rate of speed under five (5) scratch pins. A gantry supports the five independent splined-fingers which provide a constant, vertical load on interchangeable scratch pins. Each instrument includes a set of five 1mm hemispherical scratch and 7mm hemispherical mar tools along with a nine piece weight set ranging from a 2N to 20N load (optional weights are also available). |
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| The Taber Linear Abraser offers tremendous versatility to simulate abrasion and scratch resistance of virtually any product. The Linear Abraser apparatus incorporates a horizontal arm that reciprocates in a linear motion. Attached to the end of the arm is a ‘free-floating’ professional test system that is placed onto the specimen at the start of the test. As the arm cycles back-and-forth, a spline shaft raises or lowers allowing the test attachment to follow the contour of the specimen being tested. To simulate real-world conditions, parameters (stroke length, speed, load and abradants) can be altered according to the material and test being performed. The basic configuration allows the operator to conduct wear tests using an abradant the diameter of a pencil eraser. To expand the range of testing, a variety of optional interchangeable attachments are available to evaluate a products resistance to scratch, gouge, scrape, rub, mar, coin scrape, and / or crock testing. |
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| The Taber Shear / Scratch Professional tester is portable instrument is used to evaluate a material's or coating's resistance to shearing, scratching, gouging, marring, scraping or engraving. Specimens (up to 1/2" thick by 4" square) are affixed to a professional turntable and then a precision professional cutting tool, which is attached to a balanced and calibrated scale beam, is placed on the specimen. As the turntable rotates the specimen, the cutting tool will scratch or shear the specimen surface. A sliding weight adjusts the load applied on the scratch tool from 0 - 1000g to determine the point of failure. Optional interchangeable scratch tools include a conical professional diamond tool; diamond scratch tool; and 1.0 mm hemisphere scratch tip. Using the S-20 tungsten carbide tooling (contour shear tool), Taber's Shear / Scratch Tester can also be used to evaluate coating adhesion on a variety of materials. |
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A motorised device to test the resistance of many materials to scratching (ISO).
The tool, a conical diamond tip, is fixed beneath a beam graduated from 0 to 1000g (0 to 2.2lb) holding a sliding weight.
This tip is applied to a sample rotating at 5rpm. The tip leaves a trace and the extent of this, in relation to the load used, indicates the degree of hardness.
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| The Taber V-5 Stiffness Professional tester incorporates a precision pendulum weighing system to measure the stiffness, rigidity (resistance to bending) and resiliency of flexible materials. Nine (9) distinct ranges permit testing of materials that are extremely lightweight and flexible to items that are very rigid. The instrument outputs the moment load applied to the test specimen in TABER Stiffness Units (g • cm). Test specimens are mounted on the Stiffness Tester using the specimen workholding. Located on the pendulum, the lower faces of the specimen clamp jaws are exactly on the center of rotation to ensure a constant test length and deflection angle. Force is applied to the lower end of the specimen by a pair of industrial rollers , which are attached to a driving disc located directly behind the pendulum. As the driving disc rotates, the rollers push against the test specimen and deflect it from its vertical position. In response, the pendulum applies increasing torque to the specimen as it deflects further from its original position. The test point reading occurs when the pendulum mark aligns with the appropriate driving disc mark (7 ½° or 15°), which points to the stiffness reading on the dial plate. Available as a basic unit (Model 150-B) or automatic tester (Model 150-E). |
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Vibrophores
For fatigue testing of materials or components by applying sinusoid loads Zwick Vibrophores offer an economical alternative using the resonance principle with constant or variable amplitude and mean load.
The Zwick vibrophores combine a maintenance-free system with maximum testing speed at minimum energy requirements.
The wide range of nominal loads (from 5 to 500 kN) enables the widest variety of dynamic tests according to the resonance principle.
With suitable add-ons, testing can be carried out under different environmental conditions (temperature, aggressive media), or torsion or bending tests can be performed. Testing can be performed either force controlled or strain controlled. And, of course, testXpert® will support you with harmonized standard and master test programs. |
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The ElectroForce® 3330 test instrument is well-suited for long term durability studies. It provides static to 100 Hz performance with a load envelope of ±3000 N, and versatile performance for a variety of fatigue test applications.
Applications include durability testing of orthopaedic implant devices as well as dynamic characterization of engineered materials and components.
The ElectroForce® 3330 test instrument is available as a table-top configuration or a floor-standing model. The table-top configuration can be integrated with a variety of environmental chambers and specimen fixtures to meet specific test applications. The floor-standing model provides more versatility, such as the ability to incorporate a torsional motor for multiaxial test applications. It provides 100 Hz performance with a static and dynamic load envelope of ±3000 N, and the capability to add a ±28 N-m or ±70 N-m torsion option.
SPECIAL: Dental Wear Simulator (ElectroForce 3300 Test Instrument)
Bose introduces the ElectroForce biaxial testing configuration to simulate the masticatory cycle (chewing) for the evaluation of dental biomaterials and/or restoration techniques. Thus, the effectiveness of sealants or enamel replacements can be assessed in the laboratory. This wear simulator is useful for evaluating 2 body wear and can effectively run hundreds of thousands of cycles. The wear produced by 250,000 masticatory cycles on this type of simulator corresponds to the wear measured after 1 year of clinical service (Delong, et. al. 1985; Sakaguchi, et. Al. 1986; and Krejc et. al. 1990). |
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| The ElectroForce® 3450 test instrument is designed for high frequency DMA analysis and QA testing of viscoelastic materials such as elastomers, polymers and composites. Its high performance load frame is a clean, quiet, and low maintenance solution for your material and component testing needs. The ElectroForce 3450 test instrument has a maximum dynamic force capacity of +/- 6 kN and 22 mm displacement range, and can measure dynamic properties from 0.001 Hz to 200 Hz. A hot/cold chamber can be added to the system to provide temperature control from -150C to 315C. In addition, an optional quasidynamic electromechanical actuator suppliers can be supplied to compensate for creep. |
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Model: JNT1104X2, JNT1204X2, JNT1254X2, JNT1504X1, JNT1105X1, JNT1205X1, JNT1255X1, JNT1505X2, JNT1106X2
Capacity: 10kN, 20kN, 25kN, 50kN, 100kN, 200kN, 250kN, 500kN, 1000kN
Features:
JNT1000 Series dynamic and static universal fatigue industrial testing machine own two main rigid load frames capacity from 10kN to 1000kN, the system below 250kN load capacity adopts dual-column frame structure and the system over 250kNload capacity designed in form of four-column feature, further more, the principle of actuator manufacturers setting is the same. |
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ElectroForce® Stent/Graft Test Instruments
Using the patented high-bandwidth, low distortion Bose® linear cylinder, the ElectroForce Stent/Graft test (SGT) instruments accelerate stent testing and provide multi-billion cycle reliability. SGTs increase crucial speed to market and test more devices simultaneously. These test instruments were developed in response to the needs of our customers. They have evolved through several design generations and have become the standard by which other durability industrial test systems are measured.
The SGT verifies the fatigue life of vascular prostheses such as coronary and peripheral stents and thoracic and abdominal endovascular grafts under simulated physiological loading conditions.
ElectroForce® Multi-specimen High Cycle Fatigue Testing
To reduce time and costs for developing fatigue life (s/n) curves for NiTi, CoCr, and SS stent materials and structures, Bose has configured a series of multi-specimen test systems utilizing the versatility of ElectroForce® 3200 and 3300 test instruments.
Multi-axial Peripheral Stent Fatigue Test System
Bose Corporation has developed a multi-axis peripheral stent (MAPS) test instrument for stent applications in peripheral arteries. This programmable instrument simulates the complex loading that stents experience in the peripheral arteries. These include the renal arteries, the carotid arteries, and the femoral-popliteal arteries. |
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Model: ZBC1400, ZBC1251
Capacity: 4J, 25J
Features:
The model ZBC1000 Pendulum Impact Industrial testing machine is mainly designed to perform special tests for plastic material to determine impact resistance performance under dynamic loading.
It allows continuous impact test for large quantities specimens. Special control panel and display can real-time display impact energy, impact ductility, pendulum raising angels.
Two display methods are available, dial type and digital type (Professional lcd monitor).
It complies with ISO179, ISO180, ASTM D256, ASTM D4812, ASTM D4508, ASTM D950 and other similar standards.
Two models are available
ZBC1400, max Charpy impact energy 4J, max Izod impact energy 2.75J
ZBC1251, max Charpy impact energy 25J, max Izod impact energy 22J |
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The standard procedures of numerous automotive manufacturers for simulating their products' environmental conditions make high demands on the chamber technology. They require a high degree of flexibility especially of
Special advantages offers the SPS control system which assures that process parameters are reached exactly and rapidly and that they are strictly maintained. The touchpad's clearly structured menu navigation makes it easy and secure to handle the testing chamber. Process data can be visualised, supervised and documented with our professional software called VisiCORR®. For this purpose, the standard chamber is equipped with a Modbus RTU and an Ethernet TDP/IP interface.
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VLM offers you a comprehensive product range of bench top professional cabinets or chest models which covers a wide application and service spectrum going from the classical VDA test (VDA 621-415) or VW PV 1210 with conditionened ambient air to very exigent test procudures according to the factory standards of other automotive manufacturers and suppliers (see "MF" multifunction series).
We are pleased to advise you in order to compile the chamber configuration which fits exactly to your needs. Due to their unique construction and material composition, VLM corrosion testing chambers provide the best conditions to realise a high reproducibility of fully automatic cyclic corrosion tests |
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