Fpt 01 Friction And Peel Tester Suppliers and Manufacturers

The FPT-01 Friction and Peel Tester is a versatile and multifunctional device designed for various applications: Measurement of Coefficient of Friction: It accurately measures both static and kinetic coefficients of friction for a wide range of materials, including plastic films, sheets, rubber, paper, paperboard, PP woven bags, fabrics, composites, and more. This capability is valuable for understanding how materials interact with each other and with various surfaces. Delicate Peeling Force Test: The tester can perform delicate peeling force tests on materials such as release paper, adhesive tape, medical adhesives, composite films, and protective films. This feature is essential for assessing the ease of separation between different layers of materials, ensuring product quality and performance. The FPT-01 Friction and Peel Tester is a versatile instrument that serves as a valuable tool for quality control, product development, and research in industries dealing with a wide range of materials, from packaging to medical applications. System Description FPT-01 Friction and peel tester has a fixed loadcell position, with a protection cover. A movable plane is installed firmly to ball lead screw. The sled is to put on sample sticking to the plane, which is then connected to loadcell, with a filament. When performing peeling test, as the force is small, the right sample clamp is stuck to plane, using double side type. Then a separation action is performed to peel the sample and force is recorded during the process. Technical Features FPT-01 Friction and peel tester is a PLC-controlled unit with industrial-grade stability and operates through an intuitive HMI touch screen interface. The precision ball lead screw mechanism ensures consistent speed and displacement control. The system offers two distinct testing methods: one for measuring the coefficient of friction (COF) and another for assessing peeling forces. In COF tests, precise free speed settings are available, while peeling tests consider parameters that influence peeling results, such as initial and tail portions. Other features 1. Real-time data analysis and display, including results and graphical curves. 2. Compliance with various test standards. 3. Integration of a dot matrix micro printer. 4. Inclusion of an advanced peeling program. 5. Optional RS232 and software. Major Standards ISO 8295, ASTM D1894, TAPPI T816, ISO 8510-2, ASTM D4917, ASTM D3330, TAPPI T549 Main Parameters Force Range 5N, 10N, or 30N (or others) Accuracy 0.5 F.S. Sled 200�±1g (or as required) Stroke 500mm Test Speed 1~500mm/min Power 110~220V 50/60Hz

Features 1: 2 patents and 2 counts of software copyright registration. 2: iso, astm, gb and customized test mode. 3: highly accurate load cell, ac-servo drive. 4: test speed can be set freely in the range. 5: touch screen operation. 6: real color tft lcd display. 7: wide range sample thickness test available. 8: sled mass freely input. 9: micro-printer built-in. 10: overload, limit position protection. 11: low power consumption and silence running.

COF-01 Coefficient of Friction Tester Background The coefficient of friction pertains to the friction present between two surfaces. A lower coefficient of friction signifies that less force is needed for sliding to commence, while a higher value indicates a greater force requirement. The coefficient of friction varies based on the specific materials involved. In the context of packaging film, the coefficient of friction refers to the extent of 'slipperiness' exhibited by the packaging material when in contact with different components of the packaging machine or other materials. The management of the coefficient of friction holds significance in enhancing performance and mitigating issues during the creation, transportation, and storage of packages. Numerous factors, such as antiblock additives, corona treatment, antistatic agents, inks, varnishes, and adhesives, can influence the coefficient of friction. Application The COF-01 Coefficient of Friction Tester is designed to measure both static and kinetic coefficients of friction for a wide range of materials. These materials include plastic films, sheets, rubber, paper, paperboard, woven and non-woven fabrics, metal-plastic composite belts used in communication cables and conveyor belts, wood, coatings, brake pads, windshield wipers, shoe materials, and tires. The tester can also be adapted or modified to accommodate various other material types and testing standards. Standards: ASTM D1894, ISO 8295, TAPPI T816, GB 10006 Technical Features The COF-01 Coefficient of Friction Tester has been aiding the flexible industry since its inception. 1.It employs PLC control and an HMI touch screen for interaction. The design, of industrial caliber, assures stability and extended service life. 2.The driving mechanism is powered by a stepper motor and a precision ball lead screw. 3.It exhibits real-time test curves, and automatically records maximum, minimum, and average test results. 4.Both static and kinetic coefficients of friction are gauged. 5.Compliance with multiple test standards is incorporated. 6.A dot matrix microprinter is integrated. 7.The test plane is constructed entirely from aluminum. 8.It offers RS232 output and professional software(Optional). 9.Local language display is supported(Customized). Main Parameters Load Cell 5 N(or as required) Accuracy 0.5 F.S. Sled 200�±1g (or as required) Sled Size 63.5mm*63.5mm (or as required) Test Speed 100mm/min (ISO), 150mm/min (ASTM) Dimensions 540mm(L)*380mm(W)*240mm(H) Weight NW 21kg Power 110~220V 50/60Hz

Introduction: Understanding and managing the coefficient of friction (COF) is vital in optimizing packaging processes across various industries. The COF-01 Coefficient of Friction Tester provides comprehensive solutions for precisely measuring COF, ensuring efficient performance and quality control throughout packaging operations. Background: The COF signifies the degree of friction between surfaces, influencing the ease of sliding between materials. In packaging, maintaining an optimal COF is crucial for smooth processing and minimizing issues during packaging creation, transportation, and storage. Various factors such as additives, treatments, and materials composition affect COF. Application: The COF-01 Coefficient of Friction Tester is versatile, catering to a wide range of materials including plastics, rubber, paper, and more. It adheres to industry standards such as ASTM D1894, ISO 8295, TAPPI T816, and GB 10006, ensuring accurate and reliable results. Formula: COF is calculated by dividing the force required for sliding by the perpendicular force between surfaces. The tester measures both static (�¼s) and kinetic (�¼d) COF, crucial for assessing stacking, cartoning, machinery processing, and other packaging scenarios. Technical Features: 1. Advanced PLC control and HMI touch screen interface ensure user-friendly operation and stability. 2. Precision stepper motor and ball lead screw drive mechanism guarantee accurate testing. 3. Real-time test curve display and automatic result recording enhance efficiency. 4. Measures both static and kinetic COF for comprehensive analysis. 5. Compliance with multiple industry standards ensures reliability. 6. Integrated dot matrix microprinter for convenient data output. 7. Aluminum construction of the test plane ensures durability. 8. Optional professional software and RS232 output for enhanced functionality. 9. Customizable local language display for user convenience. Main Parameters Load Cell 5 N(or as required) Accuracy 0.5 F.S. Sled 200 ±1g (or as required) Sled Size 63.5mm*63.5mm (or as required) Test Speed 100mm/min (ISO), 150mm/min (ASTM) Dimensions 540mm(L)*380mm(W)*240mm(H) Weight NW 21kg Power 110~220V 50/60Hz

Coefficient of friction tester complies with astm d1894, astm d202, astm d4918, iso 8295 and tappi t815. Coefficient of friction tester has below merits: 1. Micro computer controls 2. Perfect lcd can show the parameters, results and curve clearly 3. Automatic scatter analysis, smooth analysis 4. Quick start options for tests according to different standards like iso 8295 and astm d1894 5. Can perform tests for single specimen and group specimens 6. Equipped with build-in mini printer Leading instruments provides excellent testing equipments and services for labs, quality and safety control sections of worldwide industries, including pharmaceuticals, foodstuff, cosmetics, packaging, printing, adhesive, automotive, petroleum chemistry, environment, biology, new energy, construction, astronautics and electronics, etc. Veneer case

Gm-1 coefficient of friction tester mainly measure the smoothness property of opp, pet, nilon, cpp, cpe and other plastic materials and sheets .By testing the friction efficient number judges the smoothness, uniformity of film, efficiently to prevent its smoothness level avoiding the quality defects. Its used in packaging field, film factory, printing industry, paper factory, packaging test institutions .It carries the standard of gb 10006 -1988, astm d 1894 -1990 , tappi 816 wd-00, iso 8295 -1995. Working principle Cut the sample into two pieces, one is placed in the working stable as well as clamping by the clamper, another encase the slider, then fix the slider on the hole of the sensor make the sample move under the condition of slider gaining the force, that is to say the two side of test sample makes relative moving .The sensor measured force signal be amplified by icl7650, transferred to recorder as well as recording the dynamic and static friction coefficient. Specifications Sample thickness : 0.2mm Sliding piece size : 6363mm Sliding piece mass : 2002g Working-table board size : 200470mm Measuring precision :0.001 Velocity of sliding-piece movement : 10010mm/min (changeable) Force measurement range : 0-2n (0-10 selectable) Weight : 20kg Power supply : AC 220v/ 50hz Features 1. Stable performance, accurate test data; 2. Use friendly and durably; 3. Computer control, test results directly show in the window; connecting computer with professional software online show the test curve and can save the test report as well as print. 4. Import superior components, longer lift time; 5. Simple calibration method; 6. Ce, fcc certifications 7. Versatile operation language support.

The Pendulum Skid Tester measures the frictional resistance between a rubber slider mounted on the end of a pendulum arm and the test surface. This provides highway engineers with a routine method of checking the resistance of wet and dry surfaces to slipping and skidding, both in the lab and on site. It is based on the Izod principle: a pendulum rotates about a spindle attached to a vertical pillar. At the end of the tubular arm a head of known mass is fitted with a rubber slider. The pendulum is released from a horizontal position so that it strikes the sample surface with a constant velocity. The distance travelled by the head after striking the sample is determined by the friction of the sample surface. A reading of Skid Resistance is obtained. Model 48-B0190/48-B0191 Rocker weight: 1500±30 g Distance between rocking centre and center of gravity: 410±5 mm Positive static pressure on pavement: 22.2±0.5 kN Size of rubber slider(LengthWidthThickness): 75 25 7 mm Weight of rubber slider: 16g Package: Aluminum alloy Dimension of package (mm): 740 710 210 Gross weight approx: 30 Kg

Ft-f1 fogging tester Characteristics: Determines auto's fogging characteristics precisely, guarantees automobiles driving safely. Be applicable for the laboratory and works in low noise. Data test and analysis with professional software, convenient and prompt. Bath temperature controlled by thermostat can be kept constant to 0.1ªc, creating precise testing conditions. Designs friendly and integrally, operates safely and conveniently. World-famous brand elements with stable and reliable performance. The strictly controlled constant thermostat can be used for the other experiments. Conforms to din 75201, iso 6452, sae j1756.

Function and usage It can set with 5 different temperature spots to do heat sealing, select the optimal heat healing temperature, and can also set the same temperature to speed up the heat sealing. 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: 300mm10mm slick (With silicon pad in lower seal stick) Heat sealing temperature: room temperature 20~300C (Precision 1C) Heat sealing time: 0.01s~99.99h Heat-sealing pressure: 0~0.8Mp. Dimension: 700(L)mm400(W)mm540(H)mm Weight: Desktop 30Kg. 700mm(L)X400mm(B)X540mm(H)

Coefficient of Friction Tester measures the static and kinetic friction coefficient of plastic films, sheets, rubber, paper and paper board, medical device, thread, wires etc. The COF tester can also be customized for many types of materials as well. COF Test Standards ASTM D1894, ISO 8295, TAPPI T816, GB10006

The standard C0055-M1 unit can measure Static COF (peak) from a resting position and continue to move testing surfaces in a relative motion to give an accurate kinetic COF (dynamic) result. This model features a stationary sled with a moving plane and also comes with the option of a computer software to record data.

BST-01 Ampoule Breaking Tester Background: Ampoules serve as vital containers for pharmaceutical substances, sealed hermetically by melting the thin top with an open flame. The breaking force of the neck is pivotal, impacting both the safety of the pharmaceuticals and their clinical utility. Application: The Ampoule Breaking Strength Tester quantitatively evaluates the breaking strength of ampoules, specifically measuring the force required to rupture the neck. **Standards:** This equipment adheres to various standards such as ISO 9187, GB 2637, and YBB00332002, ensuring testing consistency and reliability. Test Process: During testing, an ampoule sample is positioned on fixtures, and the pressing head, driven by the power system at a speed of 10 mm/m, determines breaking strength using a high-precision load cell upon contact with the ampoule neck. Technical Features: The BST-01 Ampoule Breaking Strength Tester stands out with its versatility and advanced features, applicable not only in pharmaceutical and medical sectors but also in various industries. Its technical prowess, including constant displacement rate, industrial-level stability, PLC control, stepper motor precision, and safety measures, makes it indispensable for testing requirements such as compression, cap opening, syringe gliding force, puncture, and stopper penetration. The device boasts a PLC control unit, an HMI touch screen, and a precision ball-lead screw-driven stepper motor for accurate speed control. Safety features include a collecting tube for broken samples and a protective cover to prevent sample displacement during testing. Additional characteristics include: 1. Test fixtures available in various capacities (1ml, 2ml, 5ml, 10ml, and 20ml), accommodating diverse specifications. 2. Multiple fixtures for testing different materials used in medical packaging. 3. Incorporation of a limiting device and an automatic return function. 4. Adjustable test speed catering to different requirements. 5. Dot matrix microprinter for result documentation. 6. Provision of a protective cover for enhanced safety. 7. Optional RS 232 connectivity and professional software for added functionality. Ensure the BST-01 Ampoule Breaking Tester meets your specific industry needs with its comprehensive features and precise testing capabilities. Main Parameter Test Range 0~200N (Or as required) Speed 1~500mm/min Resolution 0.1N Accuracy 0.5% F.S. Power 110~ 220V 50/60Hz

GST-01 Gel Strength Tester Significance of Gel Strength Testing Gel strength stands as a pivotal quality parameter across diverse industries, particularly in sectors like food production. Notably, in the realm of surimi processing, gel strength serves as a decisive factor governing the texture and excellence of surimi-derived products such as imitation crab meat. This metric significantly influences the mouthfeel, solidity, and overall sensory experience of the product. Understanding Gel Strength gcm The evaluation of gel strength is a procedural necessity, especially within food sectors like surimi processing. At its core, the gel strength test is aimed at scrutinizing the texture and caliber of gels, predominantly within industries reliant on gel-based products. Purpose: The gel strength assessment gauges a gel's capacity to endure deformation when subjected to an external force. This evaluation method is frequently employed to ascertain the texture and uniformity of gels, particularly those formed from proteins present in surimi (a paste derived from fish or meat). Principle: During the test, a punch probe, possessing specific dimensions, compresses the surface of a gel specimen at a constant rate of deformation until puncture occurs. Typically, a speed of 60mm/min and a probe diameter of �?5mm are utilized. Gel strength is derived from force multiplied by distance, thus denoted in "gcm." Technical Features of GST-01 Gel Strength Tester The GST-01 Gel Strength Tester boasts industrial-grade stability facilitated by PLC control, alongside intuitive HMI touch screen operation. Key Features: - Equipped with a 7-inch HMI touch screen, ensuring user-friendly navigation. - Incorporates a precision ball lead screw mechanism for meticulous speed and displacement control. - Custom-designed program offers flexibility in executing gel strength tests. - Multiple fixtures enable diverse texture analyses. - Safety prioritized with features like travel limit protection, automatic returning, and load cell protection cover. - Offers a range of test items including weight, peak, and distance measurements. - Features a dot matrix microprinter for comprehensive documentation. - Optional RS 232 port and professional software facilitate advanced data management. Test Items Covered: - WEIGHT: Measures distance at a specified load. - PEAK: Evaluates gel strength. - DISTANCE: Measures load at a specific distance. Main Parameters Test Range: 0-50N (or as required) Stroke: 110mm (without probe) Test Speed: 1~100mm/min Displacement Accuracy: 0.01mm Accuracy: 0.5% F.S. Control: PLC and human machine interface Output: Screen, Microprinter, RS232(optional)

GFT-01 Flex Durability Tester Background A pivotal characteristic of flexible barrier materials is their resistance to repetitive strain, commonly referred to as flex durability or Gelboflex resistance. A strong resistance to flex cracking is paramount as it reduces the likelihood of package perforation during distribution, thus ensuring package integrity. Application The Flex Durability Tester, also recognized as Gelboflex, evaluates the capability of materials such as films, composites, and coating films to endure repetitive strain. It quantifies flex failure by identifying potential pinholes in the sample structure. Optimal flex crack resistance is crucial as it diminishes the possibility of packaging developing perforations during distribution, thereby upholding the package's integrity throughout its journey. This aspect is indispensable for safeguarding the contents within. Standards Our Flex Durability Tester adheres to the ASTM F392 standard for assessing the flex durability of flexible barrier materials. Sampling and Motion Within the Flex Tester, a sample measuring 200 by 280 mm is securely fastened to the mandrels. The flexing process entails a combination of twisting and horizontal compression, subjecting the film to these actions repeatedly. Specifically, the setup initiates a twisting motion spanning 440 degrees within the first 90 mm of the stroke, followed by a linear horizontal motion of 65 mm. This entire cycle operates at a speed of 45 cycles per minute. Users can choose from five pre-programmed test conditions: - Mode A Full flex for 1 hour (2,700 cycles) - Mode B Full flex for 20 minutes (900 cycles) - Mode C Full flex for 6 minutes (270 cycles) - Mode D Full flex for 20 cycles - Mode E Partial flex for 20 cycles Technical Features Our system boasts PLC control complemented by an intuitive HMI touch screen interface. It offers five standard test modes and encompasses four test stations. Users benefit from the ability to swiftly switch between long and short stroke modes. Furthermore, the system facilitates the selection of test conditions A, B, C, D, and E. Additionally, it features a microprinter for seamless data output. Main Parameters Flex Frequency 45 /minute Flex Angle 440 (90 mm) or 400 (80 mm) Capacity 2.5 N.m Horizontal Stroke 155 mm or 80 mm Stations 4 Sample Size 280 mm x 200 mm Power 110~220V

FTT-01 Thickness Tester Background Ensuring precise plastic film thickness is paramount for maintaining product quality, functionality, cost-effectiveness, regulatory compliance, and customer satisfaction across various industries. Consistent thickness guarantees reliable performance, adherence to industry standards, and minimization of material waste. Any deviations can result in defects, increased production costs, and potential legal or quality issues, particularly in packaging and medical device sectors. Hence, precise thickness measurement is indispensable for plastic film manufacturing and quality control. Application The FTT-01 Thickness Tester employs a mechanical scanning technique to accurately measure the thickness of diverse materials, including plastic films, sheets, fabrics, textiles, membranes, paper, foil, wafers, and more. During the process, a sample is placed on the instrument's base, and a weighted presser foot is gently lowered onto it. Subsequently, the instrument measures the displacement or gap between the base and the presser foot, providing an accurate measurement of the specimen's thickness. This method is invaluable for quality control and material assessment in industries where precise thickness measurements are vital. Standards The FTT-01 Thickness Tester adheres to several industry standards, including: - ASTM D374-99: Standard Test Methods for Thickness of Solid Electrical Insulation - ASTM D1777: Standard Test Method for Thickness of Textile Materials - ISO 3034:2011: Corrugated fiberboard-Determination of single sheet thickness - ISO 534-2011: Paper and board-Determination of thickness, density, and specific volume - ISO 4593: Plastics; Film and sheeting; Determination of thickness by mechanical scanning Technical Features 1. Controlled by a PLC and operated through an HMI touch screen. 2. Equipped with automatic presser foot lifting for enhanced efficiency. 3. Provides real-time display of maximum, minimum, average, and standard deviation measurements. 4. Capable of storing test results and micro printing for comprehensive documentation. 5. Offers an RS232 port with software compatibility (optional) for seamless data management. 6. Allows for both manual sample feeding and optional automatic feeding for added convenience and flexibility. Main Parameters Test Range: 0~2mm(Customization available) Resolution: 0.1 �¼m Standard Measure Head: Hemispherical type Optional Measure Head (flat foot): 50 mm² , 17.5±1 KPa (for film) 200 mm² , 50±1 KPa (for paper) Power: AC 110~220V

FDT-01 Falling Dart Impact Tester Background: Assessing the impact strength of plastic films is critical for evaluating their quality and durability, particularly in industries like packaging, food, and beverage where transportation and handling can subject materials to significant stress. The Falling Dart Impact Test is a well-established method for precisely measuring this parameter. It involves dropping a dart onto a film surface under controlled conditions to determine the energy required for failure. This test provides essential insights for manufacturers and quality control teams, guiding decisions on material selection, product design, and packaging to ensure optimal performance. Application: The FDT-01 Falling Dart Impact Tester is specifically engineered to evaluate the resistance performance of various materials, including plastic films, sheets, composite films, foils, and paper, provided their thickness is less than 1mm. This test aids in gauging a material's ability to withstand external forces, offering valuable data for product development and quality assurance processes. Standards: Our Falling Dart Impact Tester complies with internationally recognized standards such as ASTM D1709, ISO 7765-1, JIS K7124-1, and GB/T 9639.1, ensuring accuracy and reliability in testing procedures. Technical Features: The FDT-01 Falling Dart Impact Tester boasts advanced features for precise and efficient testing: 1. PLC Control and Touch Screen Operation for stability, user-friendliness, and operational efficiency. 2. Two Test Methods (A and B) catering to diverse testing requirements. 3. Equipped with both Test Button and Foot Switch for safe and convenient operation. 4. Observation Light facilitates easy monitoring of sample status during clamping. 5. Test Results displayed in both Grams and Joules for comprehensive analysis. 6. Utilizes Electromagnetic Suspension and Automatic Falling for accurate and consistent testing. 7. Sample Pneumatic Clamping ensures secure fixation during testing procedures. 8. Dot Matrix Micro-Printer Embedded for convenient data output. 9. Professional Software available as an optional part for enhanced functionality. 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)

In the dynamic landscape of the beverage industry, maintaining optimal carbonation levels is paramount to delivering products that captivate consumers' taste buds. Enter the CLRT-01 Carbon Dioxide Volume Tester, a pioneering instrument meticulously designed to uphold beverage quality standards and elevate sensory experiences. Gauging Carbonation Levels with Precision At the heart of beverage perfection lies the accurate assessment of carbonation levels, and the CLRT-01 excels in this endeavor. By seamlessly integrating automated processes with advanced technology, this tester unveils the intricate relationship between pressure and temperature, shedding light on the nuances of carbonation dynamics. Automated Efficiency Bid farewell to manual testing procedures as the CLRT-01 streamlines the entire assessment process. From piercing the bottle cap to vigorous shaking and recording stabilized pressure, every step is meticulously executed with precision. Through PLC control and an intuitive HMI touch screen interface, operators can effortlessly navigate the testing procedure, ensuring consistent and reliable results with every analysis. Technical Feature The CLRT-01 boasts a myriad of technical features geared towards optimizing efficiency and accuracy: 1. Industrial-Grade Stability: Precise PLC control ensures unparalleled stability in operation. 2. Servo Motor Mechanism: Agitation of sample bottles is achieved with utmost precision through a servo motor and gearbox transmission mechanism. 3. Anti-Leak Design: Integrated anti-leak features guarantee secure testing conditions, preserving the integrity of results. 4. Customizable Parameters: From piercing speed to shaking frequency, every aspect of the testing process can be tailored to suit specific requirements. 5. Real-Time Monitoring: Accurate temperature and pressure measurements, coupled with real-time display capabilities, provide instant insights into test progress. 6. Versatile Compatibility: Whether testing bottles or cans, the CLRT-01 is designed to accommodate various packaging formats with ease. Elevate Your Beverage Production Incorporating the CLRT-01 Carbon Dioxide Volume Tester into your quality assurance protocols promises more than just accurate results; it signifies a commitment to excellence in beverage production. With its unparalleled efficiency, versatility, and precision, this instrument empowers manufacturers to craft beverages that resonate with consumer preferences, ensuring satisfaction and brand success. Main Parameters Test Range 0~1MPa Resolution 0.01KPa Shaking Speed Adjustable Piercing Speed 5mm/s (other available) Sample Height 350mm (other available) Temp. range 0 ~ 30 Shaking time 40s (other available) Resolution 0.1