Fpt 01 Friction And Peel Tester Suppliers and Manufacturers

Function and usage: Gas chromatography carries out the quantitative analysis and peculiar smell testing for residual solvent on food packaging cases after printing;Test the pureness and quality of organic solvents. Features 1. With higher ratio of function and reasonable price, economic and efficient 2. The design of the cellular integral structure is convenient for installation. 3. It can be connected to the chromatogram data work station so as to greatly improve the working efficiency. 4. With FID detector£ºHydrogen flame ionization detector for organic compounds with high sensitivity 5. With the flexible design of the packed column and capillary column injection ports. 6. Packed column and capillary column sample injectors can be selected as per actual situations. Wide column box (300, 300, 200mm) 7. In order to meet complicated analytic task, it makes use of various chromatographic columns so as to offer convenience and widen the range of the analytic samples. The advanced noise suppression system can fully eliminate the fan noise under the chromatogram working state, so as to provide you a comfortable and quiet working atmosphere. 8. The sampling device is completely vitrified with two modes of rapid vaporizing and column sample injection. 9. Bran-new pressure stabilization and various air circuit system 10. The air circuit has three different kinds of forms: Single, double and triple. It can match six-way valve, blow back, and precut equipment and so on according to the users¡¯ demands. It adopts new type pressure regulation system to ensure the re-productivity of equipment. 11. Reforming furnace can be equipped to implement microanalysis of CO and CO2. 12. Cracking furnace can be equipped to do double eight-step temperature rise with microcomputer control, man-machine conversation and simple application. 13. Advanced temperature control system 14. Adopt microcomputer control and man-machine conversation to indicate various needed temperatures of the temperature column box. 15. Column box temperature control scope: (room temperature +10C) - 400C, eight-step temperature rise. The speed is 0 - 30C/min (increase 0.1C/min), and the temperature control precision is 0.1%. The control point number is eight points of A type with control scope (room temperature +10C) - 400C. 16. Overheat protection function It can freely set temperature within 400C with software program protection, and the hardwired connection adopts dual fail-safe design 72cm*70cm*70cm Gross weight:65KG.

Introduction N530 for the detection of gas permeability of various films, infusion bags and other packaging materials for O2, CO2, N2 and other gases through the barrier properties. It is designed and manufactured according to the standards of ISO 2556-2001, ISO15105-1, GB / T 1038-2000, ASTM D1434-82 (2003), YBB00082003 .It has three independent testing chambers and independent temperature control system. The core is connected with computer through the USB. It can automatically judge and stop testing . The testing result is stable, curves of permeability rate ,temperature, pressure and different pressure will be shown at the same time. The test report will generate automatically while the data automatically stored. It also support TCP/IP protocol. There are three measuring range that can be enlarged. Test principlesN 530 Gas Permeation Analyzer designed using the principle of differential pressure method, preparation samples will be placed between in the test chamber with high / low pressure , and clamping it ,then make the whole test system to have a vacuum processed, input test gas the high-pressure test chamber to ensure on both sides of the test samples have a constant pressure, the gas under the role of pressure pass through film from high-pressure chamber to the low pressure chamber to infiltrate, observe the changes pressure in low-pressure chamber to caculate barrier parameters of the sample. Specifications Measuring range: 0.02 ~ 50000 cm3/m2 day 0.1Mpa (Through the expansion of volume cap can test 600000 cm3/m2 day 0.1Mpa) Measurement Accuracy: 0.01cm3/m2 day 0.1MPa Temperature range: 5 ~ 50 (standard temperature of 23 ) Temperature Accuracy: 0.01 Humidity Range: 0% RH (5 ~ 100% RH optional) Wet control accuracy: 2% RH Vacuum accuracy: 0.1Pa Test pressure:-0.1Mpa ~ +0.1 Mpa Test gas: O2, CO2, N2 and other gases Air Pressure: 0.1Mpa ~ 0.8Mpa Specimen size: 80mm, through an area of 50.24 cm2 Sample: 3(extension up to more pieces) Carrier gas interface: 1 / 8 inch Sample thickness: 2mm Power: AC 220V /50HZ Instrument weigh : 75 Kg. Gloss weight: 90 Kg. Dimension : 80 cm, 56 cm, 40 cm Features 1. Computer automatically control three chambers of testing ,can test different samples, Configuration three independent sensors, each chamber can be set different temperatures. First creating positive and negative pressure dual-mode testing, leading international standard. 2.The sample can be tested by single chamber, or double chambers or three chambers . 3. Seperately show the curve of transmission, pressure, pressure value and temperature. 4. High or low levels of barrier test, repeat excellent performance. 5. The international advanced electromagnetic process step temperature control technology, ease lifting the temperature, variable temperature adjustable-rate, temperature control accuracy of 0.01 range. 6. High and low resistance ,two kinds of test mode7. Excellent test reproducibility. 8. An excellent environmental adaptability, no special requirements on the environment. 9. Real-time display of each point transmission, through the transmittance curve, can understand the testing process. 10. The curves of each chamber¡¯s temperature, humidity, weight, and transmission display independently, continous to display four- groups-curve, can monitor the interaction of parameters at the same time. 11. Software interface is simple and easy to operate, automatically test. 12. Overpressure protection13. Software interface is simple and easy to operate, automatically save the test report can be printed and other parameters and the transmittance curve of the report. 14. Optional pairs of air humidity controlling devices, more precise of controlling wet; 15. Calibration method of standard film.

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Testing instruments, testing equipments, packaging test, packaging testers, food package tester, leak tester, heat seal tester, seal strength tester, tensile tester, compression tester, coefficient of friction tester, perpendicularity, fatigue test.

Background Plastic films and sheets are typically made by melting polymer material and then shaping it through processes like extrusion or calendaring. During this production, the material is stretched in the machine direction, and as it cools, some internal stresses remain. When reheated, these stresses can cause the material to shrink, altering its dimensions. This shrinkage is crucial for quality and process control in plastic manufacturing. It helps assess process consistency, adjust production parameters, and understand material characteristics. Industries like packaging rely on shrinkage data to ensure precise fit after heat exposure. In essence, shrinkage is a key factor in maintaining product quality and process efficiency in plastic film and sheet production. Application The FST-01 Film Free Shrink Tester is used to measure the unrestrained linear thermal shrinkage of plastic film and sheets at specified temperatures in a fluid medium. This device helps assess how much these materials will shrink when exposed to heat in real-world applications. Test Process 1. Temperature Setup and Stabilization: Set the temperature on PID controller and the fluid is heated to a preset temperature and temperature is stabilized. 2. Specimen Preparation and Submersion: Mount the test specimen into the free shrink holder. Submerge them together into the liquid bath. 3. Time Monitoring and Completion: The timer starts to count down and when the test time is reached, an alarm will beep, signaling the end of the test. 4. Test Conclusion: Carefully remove the test specimen from the liquid bath. Press the Stop button on the tester to mark the conclusion of the test. 5. Shrinkage Measurement and Assessment: Treat test specimen in ambient environment and Measure the linear shrinkage of the specimen. Calculation To calculate the unrestrained linear shrinkage percentage using the given formula: Unrestrained Linear Shrinkage (%) = [(Lo - Lf) / Lo] x 100 Where: Lo = Initial length (100 mm) Lf = Length of the side after shrinking Technical Features 1. Precise P.I.D. temperature control 2. High-precision timer 3. Alarm capability 4. Consistent fluid medium heating 5. Inclusion of a standard square metal clamp and a free shrink holder 6. Equipped with an oil bath cover Standard: ASTM D2732 Main Parameters Sample Size â?¤160 mm x 160 mm Temperature Range Ambient ~ 200C Accuracy ±0.3 C Dimension 37*44*28 LWH cm Power Supply 220V 50Hz

Application The FSR-01 Shrink Force and Ratio Tester serves the purpose of measuring both the shrinking forces and shrinkage ratio of heat shrinkable films. These films are typically created through extrusion and stretching (hot drawing) during their manufacturing process, retaining this stretched state even after cooling. When the heat shrinkable film is reheated to the temperature at which the initial stress was introduced and subsequently fixed during its production, this stress is released, causing the film to contract or "shrink back." Depending on the specific manufacturing treatment applied, the film can be categorized as either biaxially oriented (stretched in two directions) or uniaxially oriented (stretched in one direction). Test Process 1. A well-insulated air oven is heated to the set temperature. The two samples are placed separately on two test stations, for shrinkage rate and shrink/contraction force testing. 2. A temperature probe is located to measuring area, to give result as reference temp. The air oven is driven down automatically to cover the sample area. The force and shrink rate are to be measured and the shrinkage temperature is reached when the maximum shrinking force is attained. 3. When this force has decreased by around 15%~30%, the air oven is lifted and time is recorded. 4. The assessment of shrinkage ratio is performed at the mean time. Technical Features 1. PLC Control and HMI Touch Screen: ensuring industrial-level stability. 2. Well-Insulated Air Oven: The air oven is excellently insulated and capable of automatic lowering and lifting, enhancing the precision of the testing. 3. Non-Contact Shrink Ratio Measurement: accomplished through a noncontact method, improving accuracy and reliability. 4. Real-Time Display:including shrinking force, contracting force, and shrinkage ratio, allowing for immediate analysis and monitoring. 5. Elimination of Interference Factors: Irrelevant interference factors like friction and cool air are effectively eliminated, ensuring the accuracy of the results. 6. Stable Heating System: The heating system is stable and well-balanced, maintaining consistent and controlled test conditions. 7. Easy Sample Loading: Sample loading is made easy, streamlining the testing process and reducing setup time. 8. High-Resolution Sensors: The system is equipped with high-resolution force transducers and thermometers, guaranteeing precise measurements. 9. Connectivity and Software:(optional) It includes an RS232 port for data connectivity and offers optional professional software for advanced data analysis and reporting capabilities. Standards: ISO 14616, DIN 53369 Main Parameters Force Range 5 N ( or as required) Accuracy ±0.5% Resolution 0.001N Displacement Range 0.1 ~ 95 mm Accuracy ±0.1 mm Temperature Range Ambient ~ 210C Accuracy ±0.5C No. of Specimens 2 Sample size 110*15 mm, L*W Power Supply 220V 50Hz

Background Impact strength is a crucial parameter for assessing the quality of plastic films. It plays a significant role in determining a film's ability to withstand external forces and impacts, which can directly affect its cost and performance, especially during transportation and handling. The Falling Dart Impact Test is a traditional and widely accepted method for measuring the impact strength of plastic films. This test helps determine the energy required to cause a plastic film to fail under controlled conditions where a free-falling dart strikes the material's surface. The result of this test provides valuable information about the material's ability to resist impact and can help manufacturers and quality control teams make informed decisions about material selection, product design, and packaging to ensure the durability and integrity of plastic films in various applications. Application FDT-01 Falling Dart Impact Tester is used to measure he resistance performance of plastic films, sheets, and composite films, foils, paper, with less than 1mm thickness. This test indicates material ability to resist external force. The FDT-01 Falling Dart Impact Tester is a specialized testing device designed for measuring the resistance performance of various materials, such as plastic films, sheets, composite films, foils, and paper, provided they are less than 1mm thick. This test is conducted to assess the material's ability to withstand external forces. Standards ASTM D1709, ISO 7765-1, JIS K7124-1, GB/T 9639.1 Technical Features FDT-01 Falling Dart Impact Tester is a PLC controlled unit (industrial level stable) and HMI touch screen operated. Every part of the dart assembly and releasing mechanism are made strictly to standard. By the embedded test program, user just needs to perform test and increase or reduce the weights according to the set parameters. Then after enough number of Fail/Non-Fail tests, the system automatically gives impact result, which is without being manually calculated again. 1. PLC Control and Touch Screen Operation offer stability, ease of use and efficient operation. 2. Two Test Methods (A and B) (Method B is optional) 3. Both Test Button and Foot Switch Are Equipped for safe and easy operation 4. Observation Light helps check sample status during clamping 5. Display of Test Results in Grams and Joules 6. Electromagnetic Suspension and Automatic Falling 7. Sample Pneumatic Clamping 8. Dot Matrix Micro-Printer Embedded for data output 9. Professional Software is Provided as an Optional part Main Parameters Test Method Method A or Method B (optional) Test Range Method A: 50~2000g/Method B: 300~2000g Dart Diameter Method A: 38�±1mm/Method B: 50�±1mm Impact Height 660mm/1500mm Accuracy 0.1g (0.1J) Clamp Pneumatic Clamp Gas Supply 0.6 MPa �¦8 mm PU Tubing Specimen Size > 150 mm x 150 mm Power Supply AC 110~220V 50Hz Dimension Method A: 500*450*1200 mm (LWH)/Method B: 500*450*2200 mm (LWH)

Background Impact resistance plays an important role in the performance of material subjected to regular shocking load or impact load. As this kind of load may cause rupture, cracking or deformation. There are various test procedures to evaluate the impact resistance of a material, such as dart impact, ball impact, pendulum impact, izod, charpy, tensile, etc. Application Falling ball impact tester measures the resistance performance of plates, sheets, and composites, films foils, paper etc. with less than 2mm thickness. By impact test, the material ability to resist external destruction can be indicated. User observes the destruction status of the test specimen after it has been hit by a falling weight that fell from a given testing height. Test Method A steel ball of known mass and diameter is released from a predetermined height, creating a controlled impact force on the test specimen (film or plastic sheet). The impact energy and the resulting damage or deformation are measured and analyzed to assess the material's impact resistance. Factors Influence Result 1. Drop Height: The height from which the steel ball is dropped is a critical parameter that can be adjusted to simulate different impact scenarios. 2. Ball Size and Mass: The size and mass of the steel ball are selected based on the specific testing standards or application requirements. Technical Features FBT-01S is an economic version of ball impact tester, without complicate control and system. It also uses electromagnetic suspension and release, and is equipped with two foot switches too. Sample pneumatic clamping is also the same type and test area as FBT-01. Key Features: 1. Adjustable Impact Height and Various Balls cater to diverse testing scenarios. 2. Electromagnetic Suspension: Employing electromagnetic suspension ensures a controlled and consistent release of the impact ball. 3. Reliable Pneumatic Sample Clamping guarantees that test specimens remain firmly in place throughout testing. 4. User-Friendly Operation: The tester is equipped with two foot switches, simplifying the testing process and enhancing usability. Main Parameters Impact Height 300mm-600mm (can be extended) Ball Diameters(mm) 23, 25, 28.6, 38.1, 50.8(one equipped) Accuracy 0.1g (0.1J) Specimen Clamp Pneumatic Clamp Gas Supply 0.6 MPa �¦8 mm PU Tubing Specimen Size > 150 mm x 150 mm Power Supply AC 110~220V 50Hz

Background Impact resistance plays an important role in the performance of material subjected to regular shocking load or impact load. As this kind of load may cause rupture, cracking or deformation. There are various test procedures to evaluate the impact resistance of a material, such as dart impact, ball impact, pendulum impact, izod, charpy, tensile, etc. Application Falling ball impact tester measures the resistance performance of plates, sheets, and composites, films foils, paper etc. with less than 2mm thickness. By impact test, the material ability to resist external destruction can be indicated. User observes the destruction status of the test specimen after it has been hit by a falling weight that fell from a given testing height. Test Method A steel ball of known mass and diameter is released from a predetermined height, creating a controlled impact force on the test specimen (film or plastic sheet). The impact energy and the resulting damage or deformation are measured and analyzed to assess the material's impact resistance. Factors Influence Result 1. Drop Height: The height from which the steel ball is dropped is a critical parameter that can be adjusted to simulate different impact scenarios. 2. Ball Size and Mass: The size and mass of the steel ball are selected based on the specific testing standards or application requirements. Technical Features The FBT-01 Falling Dart Impact Tester is a system with PLC control (maintaining industrial-grade stability) and is operated via an HMI touch screen interface. Key Features: 1. Precision PLC control and user-friendly touch screen interface 2. Adjustable impact height with a variety of available ball options 3. Display of test results in multiple units 4. Utilizes electromagnetic suspension for automatic ball release 5. Secure sample clamping through pneumatic mechanisms 6. Convenient manual and foot switch operation 7. Equipped with a dot matrix micro-printer 8. Option for advanced professional software (available as an add-on) Main Parameters Impact Height 300mm-600mm (can be extended) Ball Diameters(mm) 23, 25, 28.6, 38.1, 50.8(one equipped) Accuracy 0.1g (0.1J) Specimen Clamp Pneumatic Clamp Gas Supply 0.6 MPa 8 mm PU Pipe Specimen Size > 150 mm x 150 mm Power Supply AC 110~220V 50Hz

Application The CLRT-01 Carbon Dioxide Volume Tester is a crucial tool in the beverage industry, focusing on gauging carbonation levels, which significantly impact the bubbly and sensory qualities of drinks, thus influencing product excellence and customer contentment. Specially crafted for CO2 volume assessment, the CLRT-01 employs an automated process to uncover the connection between pressure and temperature, a pivotal factor in thorough beverage quality analysis. By seamlessly merging these elements, it offers a profound understanding of carbonation dynamics, granting manufacturers the ability to maintain consistency, adapt formulations, and provide effervescence that resonates with consumer preferences and brand achievement. Automatic Testing and Shaking The tester automates the traditional manual process: Piercing the bottle cap â?? Opening the vent valve to release pressure â?? Closing the vent valve â?? Vigorously vibrating for 40 seconds â?? Recording the stabilized MPa pressure (while measuring liquid temperature) â?? Obtaining the carbon dioxide gas capacity test results. Technical Features 1.This unit is under precise PLC control (at an industrial-grade stability level) and operated through an HMI touch screen interface. 2.Agitating the sample bottle is achieved using a servo motor and gearbox transmission mechanism. 3.The design incorporates anti-leak features and includes accurate temperature and pressure measurement. 4.The process involves automated piercing and shaking. 5.Displacement and speed during piercing are controlled for accuracy. 6.The shaking parameters, including frequency and duration, can be customized. 7.Test results are guaranteed accurate due to the implementation of a highprecision pressuresensor. 8.Real-time temperature display is enabled by a precision temperature sensor. 9.Post-test, the carbonation volume is automatically and presented. 10.Designed to prevent leaks, this versatile tester is suitable for both bottles and cans. 11.(Optional) A microprinter can be incorporated for additional functionality. 12.(Optional) The inclusion of an RS 232 port and professional software provides further versatility. Main Parameters Test Range 0~1MPa Resolution 0.01KPa Shaking Speed Adjustable Piercing Speed 5mm/s (other available) Sample Height â?¤ 350mm (other available) Temp. range 0 ~ 30 Shaking time 40s (other available) Resolution 0.1

The GBH electronic tensile tester is primarily used for packaging industries and is considered the best value for food, pharmaceutical and cosmetic industries. Standard: ASTM D828-1997(2002) , ASTM-D882-09, ASTM D1938-2006 , ASTM d3330, ASTM f88-06 , ASTM F904-08, JIS P8113-1998, GB/t8946-1998, GB 8808-1988 , GB 13022-1991 , YBB00112003, YBB00102003, YBB00132002. Specifications: Force measurement range: 0-500n, 1500% elongation Force measurement resolution: 1/ 100, 000 of the full range of the sensor Test speed: 0-500mm/min (stepless speed regulation) Displacement precision: within 0.5% of the indicating value. Effective test travel: 800mm Power supply: AC220V /50hz Dimension: 600 (l)mm 600 (w) mm 300 (h) mm Weight: 70kg.

Instrument structure: The structure of the heat-sealing tester is composed of 4 parts: pneumatic drive system, heat-sealing equipment, temperature adjustment system and time adjustment system. Pneumatic drive system: It includes pressure gauge, guide stick, cylinder, pneumatic valve, pressure regulating handle and so on. You can pull the pressure-regulating handle outward, rotate to the right side to adjust the heat sealing pressure to a high value, and rotate to the left side to reduce it. After setting the pressure, please press the handle to the side of mainframe to lock the air pressure. Heating-seal device It is composed of the upper and lower heat-sealing sticks, of which the upper one is connected with a cylinder. There is an insulating plate in the upper part, which can prevent heat transmit to the cylinder. The heat-sealing stick is made of aluminum, and the center is heater. There is a silica gel plate in the upper part of the lower heat-sealing stick, which can mitigate pressure impact during heat sealing. Temperature measurement system was installed at the back of the heat-sealing stick. Temperature adjustment system: The upper temperature controller controls the temperature of upper heat-sealing stick, and the rear temperature controller controls the temperature of lower heat-sealing stick. The temperature can be set at will through adjusting the button on the dial plate. Time adjustment system: Time adjustment system: The heat-sealing time can be set at will through adjusting the button on dial plate. The setting scope of time is 0.01s to 999.9h. Press the foot switch under the manual state, and the heat-sealing stick will be pressed together. Under the automatic state, the press-fitting time of upper and lower heat sealing sticks are controlled by a timer automatically, it can automatically recover later. The unit of timer is 0.1 second in general. There is time adjusting button on the panel of the timer, and the heat-sealing time can be adjusted at will. Specifications Power : AC220V  50HZ  ; Compressed Air : 8kg/cm2; Heat sealing plane : 300mm×10mm slick (With silicon pad in lower seal stick); Heat sealing temperature : room temperature 20~300°C (Precision 1°C); Heat sealing time : 0.01s~99.99h; Heat-sealing pressure : 0~0.8Mp. Dimension: 700 (L) mm×400 (W) mm×540 (H) mm Weight: Desktop 30Kg.

GBR type hot tack tester is applicable in hot tack property test for flexible and semi-rigid packaging materials or pipe materials. The hot seal temperature, pressure and time can be set by users easily. Temperature control system of digital P.I.D., with high accuracy. Parallel heating surface, even temperature, good sealing efficiency. International quality pressure control devices of higher accuracy. Optional load cell range, easy to change and easy to broaden the test scope. Perform many tests in different width by changing the specimen fixture quickly. Test controlled by micro-computer, led displays, with professional software. Test principle Clamp the two ends of the specimen by the static jaw and dynamic jaw, the driver moves the dynamic jaw, which produces relative movement. Tester gets electronic signal from the load cell after the specimen suffers the force. After analysis, get the data of hot tack, peel, and tension. It can print out the report if needed. Note: hot tack tester tests the strength of a specimen at a specified time interval (tack time) after completion of heat-sealing in melting state but prior to the temperature cooling down to room temperature. Specifications Temperature range: room temperature~250ºc Temp. Control accuracy: ±0.2ºc Dwell pressure: 0.04mpa~0.8mpa Hot sticking time: 0~99s Accuracy : ±1% of reading force Measuring range : 0-300 n Width of specimen : 15mm or 25 mm or 25.4 mm (optional) Length of specimen : 200 mm Dimension : 600mm (l) ×300mm (b) ×220mm (h) Power : AC 220v 50hz/60hz Net weight: 62kg Configuration Standard: mainframe, footswitch, hot tack clamp, calibration frame Optional: software, communication cable, non-standard seal jaws, test board, welding cloak, non-standard jaws, sample cutter, non-standard specimen Standards ASTM f1921, astm f2029, qb/t 2358(zby 28004), ybb 00122003.

W301 Water Vapor permeation tester tests the water vapor transmission rate (WVTR) of packaging material. This instrument is widely used in food industry, pharmaceutical industry, cosmetics flexible packaging materials industry(plastic film, barrier materials, sheets, metal aluminum, PVC,PVC sheets), college, university and quality institution for their water vapor transmission rate(WVTR) test and quality control. It carries the standards of GB 1037-1988 ,GB/T 16928-1997, ASTM E96-00e1 ,ASTM D1653-03,TAPPI T464,ISO2528. Working principle W301 Water Vapor Permeation Tester was designed with the principle of weighting method to use weight reduction method to test the water transmittance rate (WVTR) of plastic films. Namely in the regulated temperature, relative humidity conditions, the sample two sides keep the vapor different pressure, measuring the vapor volume passed through, figure out the WVTR value. Unit is g/ m224h. Specifications Measurement range0.02~10000 g/ m224h Measurement accuracy: 0.001 g/ m224h Temp. range1545 Temp. accuracy0.1 Humidity range: 0~20%RH dry method 10~90%RH (dual-airflow humidity method, selection Humidity accuracy: 2%RH Sample thickness2mm Sample no1piece Sample dia.:80mm, transmission area 50.24cm2, (no stipulate for area in international) Power supply: AC220V/50Hz Features 1, Automatic test, use friendly, 2, Instrument with configuration of 240,000 true color touch screen to work independently; 3, High-precision sensors with over-range protection, continuous data collection, accurate and reliable data; 4, Automatic control temperature, low requirements for environment; 5, Software displays the status of each curve ,all the test parameters on the real time showing; 6, Work independently without computer; 7. Test precision is the same with infrared method and coulometry method; 8. Superior components ,multi-level security protection design, 9. Calibration with two method of weights and standard film; 10. CE, UL, FCC certifications. 11. Versatile operation language support. 12. Test chambers can expand to ten or even more. Service :2 years coverage Speedy reply, 12hrs response to customer questions Software free update Minor maintenance ---parts ship within 24 hrs Major maintenance---Technical will be sent within 15 days Free inhouse training for customer operator.

Oxygen permeation analyzer/OTR, water vapor permeation analyzer/WVTR, gas permeation analyzer/GTR, tensile tester, heating-seal tester, co-efficient of friction tester/COF, gas chromatography/GC, inverted pressure sterilized boiler, pendulum impact tester, falling dart impact tester, electronic thickness tester, scratch-resistant tester, drying oven.

Cashew machine, cashew nut peeling machine, raw cashew sorting machine, steaming continuos & bucket elevator, automatic shelling system, drying kiln, cashew peeling machine 01, 02 heads, grading vibrator, screening machine, plastic packing material.

WAW Series Computer Controlled Electro-hydraulic Servo Universal Testing Machine They are suitable to test various metallic & non-metallic materials for tension, compression, flexure, bending and shearing strength. It is simple, easy to operate and widely used in works, laboratories and high schools for material properties R&D and quality control. Equipped with computer as well as printer, it can display, record, process and print the test results and can draw test curves automatically in real time.

Impact Testing System They are accordance with International Standard ISO148-1983 & ASTM E23. & mainly used to determine the anti-impact capability of metal materials under dynamic load.They are the best testing equipment for many metal material manufactories, quality inspection departments and universities. The result will display on both digital screen and dial gauge. JBW Series can Carry out the functions of clear zero and return automatically, capture the value of lost impact energy and pendulum cycle by means of setting up with computer program, and the result can be displayed, stored and printed out. Nist calibration certification

WDW Series Universal Electromechanical Universal Testing Machine It is computer-controlled precision Testing Machine, suitable for wide range of material for tension, compression, Bending and shearing test. It has high stability as well as high precision, equipped with PC system & printer for graph, test result display, printing & data processing. Complete with modulus for metal, spring, textile, rubber, plastic and other material testing & creep test. It is widely used in many fields such as industry factories, mineral enterprise and high schools. Applied Standard Load meets or exceeds the following standards: ASTM E4, ISO7500-1, EN 10002-2, BS1610, DIN 51221. Strain measurement meets or exceeds the following standards: ASTM E83, ISO 9513, BS 3846 and EN 10002-4. Tensile test at room temperature DIN EN 10002-1, ISO 6892, ASTM A370, ASTM E 8 Tensile test on reinforced steel: ISO 10606, EN 10080 Compression test DIN 50106, ASTM E9

The Series electromagnetic resonance fatigue testing machines are used for fatigue tests of metal material and component under tension, compression or reversal load .If the relevant grips are provided, three-position bending test ,four-position bending test ,tension and compression of sheet sample test ,tension and compression of circle test ,gear wheel , bolt , connecting rod , roller chain, crackle expanding test are available. The serial testing machines undergo optimization design and the structure is rational. The automatically controlled system adopts the advanced pulse wide control system and new-type power amplifier to improve the reliability of the electric system .It is with high efficiency, easy to shake, no-stop shake, low energy consummation, high controlling accuracy, small fluctuation. The machines comply with DIN50100. CTOD Test, Dynamic Testing Machine, High Frequency Testing Machine, Fatigue Testing Machine, creep & break Tester