VISCOlab PVT+ is related to the development of heavy oil extraction methods and has a proven track record in measuring fluid viscosity at high pressure and high temperature.

A viscosity meter manufactured by Cambridge has been adopted for measuring the viscosity of diesel fuel in the common rail test stand. This involves real-time measurements using the viscosity meter implemented in the test stand, rather than sampling tests conducted in a lab. Measuring fuel viscosity is effective for the development of high-precision fuel injection systems in response to increasingly stringent emissions regulations, and it monitors the temporal changes in fuel characteristics.

A viscosity meter manufactured by Cambridge has been adopted in the manufacturing process of dialysis membranes for artificial kidneys. It is used as a viscosity monitor during the mixing of polymer raw materials, but the polymer manufacturing process involves repeated heating and cooling, resulting in strict viscosity tracking. The effectiveness of real-time measurement, as opposed to lab tests after sampling, is evident, and it is advancing productivity and cost reduction while maintaining high-quality standards.

In the context of restrained research and development expenses, it is necessary to devise ways to maintain research levels while keeping costs down in areas such as materials, biotechnology, and pharmaceuticals. If we can minimize the use of expensive sample liquids as much as possible while still obtaining research results, it would be a win-win situation. The "VISCOlab 5000" is an automatic viscometer that can perform precise viscosity measurements with a sample volume of just 75 μl. It conducts viscosity measurements under temperature conditions of 10 to 40°C and can display data on a screen or output it to a printer. It has been widely adopted by pharmaceutical manufacturers, universities, and laboratories in Europe and the United States, contributing to reduced sample liquid usage and cost savings.

A U.S. biotech company has adopted the Cambridge VISCOlab 5000 for viscosity measurement of micro-samples for the development of an injectable drug for brain aneurysms. This viscosity measurement device requires only a sample volume of 0.075cc, achieving accurate and reliable measurements while significantly reducing costs. Viscosity measurement is performed automatically by simply placing the sample liquid into the measurement chamber, and the liquid temperature is also automatically controlled, leading to highly effective results.

The Cambridge VISCOpro 2000 viscosity control device accurately performs viscosity control of fuel oil. By precisely controlling viscosity and maintaining perfect combustion, it not only reduces fuel consumption but also lowers maintenance for various combustion systems and equipment, as well as the burden on emission treatment devices, enabling overall cost reduction. The VISCOpro 2000 features a robust structure, with sensors made of 316 stainless steel, and is composed of sophisticated and easily operable electronic components. The sensors are installed in the fuel system, and the controller outputs alarms, viscosity, temperature, and temperature-corrected viscosity, directly controlling temperature adjustment equipment to maintain the set viscosity.

In offshore oil wells, as deep drilling operations increasingly develop, precise viscosity measurements using minute sample fluids hold extremely important significance. The CVI VISCOlab PVT+ is a device capable of measuring viscosity even under high pressure with fluid and gas phases. Measurements can be conducted at a maximum of 138 MPa under normal conditions, or up to 207 MPa as an option, and can be performed not only in a static state but also while the fluid is continuously flowing. The measurement methods comply with ASTM D445 and D7483, requiring only a sample volume of 6 ml. It accommodates various applications such as viscosity measurement under high pressure, petroleum-related investigations, EOR, core analysis, and supercritical fluid development.

In atmospheric analysis, it is necessary to prevent the removal of particulate matter and aerosols from the sample gas. In this regard, the Nafion-based sample gas dryer manufactured by Perma Pure demonstrates excellent performance. Tests conducted on the preservation of particulate matter have proven that it possesses sufficient functionality, making this product inherently very effective for atmospheric analysis.

The Roland SND40 welding seam detection device is a specialized device for detecting welding seams in pipes, coils, and electrical wires and cables. Particularly in the case of pipes, various materials, advancements in welding technology, heat treatment, and drawing processes have led to the emergence of materials that are difficult to detect even by sight or touch. In such situations, reliable seam detection brings many advantages, contributing to smooth process management, stable high-precision component processing, and cost reduction. The SND40 employs two detection methods, using the leakage magnetic flux method and the eddy current method to detect welding seams in a wide variety of metal materials, unaffected by ambient light, oil, or contamination. The more inspections are required and the more limited the time, the more you will notice its effectiveness.

The T7500 series electro-pneumatic regulator offers versatility for precise low-pressure applications. The accuracy is standard at 0.15% and guaranteed at 0.25% full scale. The T7500 series electro-pneumatic converter provides maximum versatility for precise low-pressure applications. RFI/EMI protection eliminates vulnerability to electromagnetic waves and radio interference. Damping adjustments can be made for optimal response. There is no influence from vibration or installation direction. Its compact size allows for use in restricted spaces. There are various mounting methods available, allowing for flexible installation for many applications.

The VP2100 series viscometer, a new product from Cambridge Viscosity, has been developed specifically for process control. The sensor, which incorporates a long-established reciprocating piston method, performs real-time measurements using a small amount of sample liquid. The installation of the sensor is easy, and it offers excellent maintainability, providing a sufficiently stable signal even over long calibration intervals. The sensor is not affected by external environments, vibrations, or changes in flow rate. Additionally, it is highly durable, and the system is not compromised even with heavy sample liquids outside the measurement range. <Advantages> - Low cost - Easy to integrate - Minimal maintenance - Quick return on investment

We offer four models: 10BP, 4000ABP, 20BP, and 4500ABP. Each model is extremely sensitive and functions to detect fluctuations in primary pressure and maintain a constant pressure. This high sensitivity characteristic is 32Pa for the 10BP and 127Pa for the 4000ABP, depending on the appropriate diaphragm diameter, material, and structure. Additionally, they have the following features: - Reproducibility is very stable and highly reliable - Capable of handling applications with large flow rates - In precision control systems, they are adopted not only in testing equipment but also in mechanical control and medical devices ● The 10BP and 4000ABP models are manually set ● The 20BP and 4500ABP models are pneumatic signal set The setting pressure range for the 10BP model is a minimum of 0-15kPa and a maximum of 35-2800kPa. All products are primarily designed for use with air and inert gases, but over the years, they have also been used for liquids in testing automotive engine fuel efficiency and fuel control system devices. All products are highly sensitive and adaptable to high flow rates, showing a significant performance difference compared to existing metal diaphragm back pressure regulators.

The Cambridge-made micro-sample viscometer is a product that can perform measurements of small quantities on a tabletop. It can measure small samples ranging from 1.5ml to 2ml, with viscosities from low viscosity up to a maximum of 20,000 cP. The measurement method is based on a falling body principle, which is particularly effective for measuring low viscosity fluids. The operation is automated; simply introduce the sample into the measurement chamber, and it will measure automatically, providing good reproducibility and high reliability, requiring no special skills from the operator. The product comes in two series, VL3000 and VL4000, with the VL4000 available for demonstrations at our lab or at a location specified by the customer. In addition to tabletop products, the manufacturer also produces process-type viscometers using the same measurement method, allowing for comparison and verification of process data against measurement data confirmed in the laboratory, leading to more precise process control.

The Jordan 708 series is a small control valve designed for low flow rates. Cv range: 0.00001 to 4.0 (19 ranges) Connection sizes: Three sizes of 1/4”, 1/2”, and 3/4". Maximum pressure: 34.5 MPa Maximum temperature: 482°C, making it suitable for a wide range of applications despite its small size. The wetted parts are available in various materials, including 316SS, allowing us to meet customer requirements. Features: • Rolling diaphragm - The rolling diaphragm design maintains a relatively constant effective area of the diaphragm regardless of the valve stem position. • Spring-loaded TFE/Chevron packing - The spring-loaded packing maintains moderate compression without excessive friction. • Bolt-connected body/bonnet - The bolted construction provides a robust structure for safe connections. • Guided trim - The extended orifice/plug guide improves shut-off capability and accuracy as standard (not available for Cv values below 0.05).

The SV series solenoid valves are products developed for aerospace equipment and onboard use, and are used in various applications across general industries. 【Features】 - Based on a 3-way, 2-position valve that can be used from vacuum to a maximum pressure of 41.4 MPa. - Internal and external leakage characteristics are extremely excellent, generally equivalent to zero leakage. - Fluids include air and are compatible with a variety of gases and liquids. - The body material can be selected from stainless steel, brass, and aluminum. *We also accept KHK testing required for high-pressure gas use, providing optimal solenoid valve selection for users.

The Steriflow Mk95 back pressure regulator is made of 316L stainless steel and is a sanitary process product designed for structures without liquid traps, surface finishing, and compatibility with CIP/SIP. ★ It has a proven track record in pharmaceutical manufacturing processes, food, and chemical manufacturing processes. ★ Stable control performance. ★ When a simple diaphragm valve does not satisfy control requirements, and the use of expensive control valves is hesitated, a self-operated back pressure regulator achieves both good control and cost reduction.

A highly sensitive diaphragm maintains a stable output pressure that is unaffected by fluctuations in supply pressure. The high output capacity and extremely high sensitivity characteristics cater to various applications requiring high precision, including tension control, cylinder control, manometer reference pressure setting, signal pressure for control valves, and machine control, among others.

High pressure use: maximum 69 MPa. High strength. Wear resistance. High pressure regulator. The high pressure hydraulic regulator manufactured by Rotork Fairchild has a maximum of 69 MPa. It is suitable for hydraulic and pneumatic applications. The threaded connection exhaust port allows for easy recovery of the exhausted fluid. The precipitation-hardened stainless steel alloy sheet provides a unique combination of ultra-high strength, toughness, and excellent corrosion resistance. It offers high strength and wear resistance. << For more details, please contact us or download the catalog. >>

The newly revamped Rotork Fairchild PAX1 series linear actuator can be used independently or in combination with a variety of proven Fairchild pressure regulators, allowing for remote control of air pressure. It operates on a power supply of 11-26VDC, and the position is controlled clockwise or counterclockwise by a 4-20mA signal or pulse. The device is designed to lock in the last position in the event of a power or signal loss. The PAX1 is ideal for applications requiring precise position control. Using optional analog feedback, it communicates the current position to the operator with a 4-20 mA analog feedback signal. Adjustable motor speed, customer-configurable position limits, and alarms are standard features. !! For more details, please inquire or download the catalog !!

For high-pressure applications up to 20MPa, it can be used in combination with regulators of various pressure ranges, and of course, it can be remotely controlled. Mechanical features of the company: 1. Sturdy explosion-proof type, IP66/68 housing. 2. Coaxial gear type that accommodates thermal expansion and contraction without coupling. 3. Strength and long lifespan due to powerful planetary gear reduction. 4. NAMUR mounting type (F05 & F07). 5. Can be changed to a universal adapter plate depending on the mounting method. 6. Digital limit switch allows for minimal hysteresis and high precision. 7. Wiring port on the top of the enclosure for easy wiring and connection. In the high-pressure range: • Model HPD 0-0.173 to 0-3.45 MPa • Model HPP 0-6.9 to 0-20.7 MPa !! For details, please contact us or download the catalog !!

- Compact design - No feedback lever linkage required - Front cover provided for malfunction prevention - Easy installation structure - Auto calibration - Front-mounted operation panel - Non-contact structure to avoid wear and misalignment of levers - Low air consumption due to large capacity spool Spool capacity 80 Nm³/h, air consumption 0.1 Nm³/h For more details, please check the product page and download the catalog.

SPC501 is widely used for oil analysis applications such as compressors, engines, and hydraulic systems. It is ideal for installation locations where shape and small sample volume are important. The measurement technology is based on a simple and reliable electromagnetic concept. Two coils magnetically move the piston back and forth with a constant force. The built-in analysis circuit analyzes the piston’s movement time to measure absolute viscosity. The built-in resistance temperature detector (RTD) detects the actual temperature within the liquid chamber. The constant movement of the piston ensures that the liquid in the chamber is continuously replaced, mechanically cleaning it to achieve viscosity tracking.

Lightweight, sturdy, and compact clamps and grippers. Solutions for every stage of manufacturing. Capable of automation. The over-center toggle lock structure clamp developed by Destaco is now a fundamental element of this type of equipment. <Advantages> ★ We offer manual, hydraulic, and pneumatic products. ★ Sturdy and highly reliable. ★ Safely holds workpieces and materials during transport. ★ Accommodates all components, from small and fragile parts to long and heavy materials. ★ Custom products are available for special applications. ★ We provide lightweight, sturdy, compact products tailored to your needs. ★ Suitable not only for general industries but also for food and pharmaceutical applications. ! For more details, please download the catalog or contact us!

The clamp with an over-center toggle lock structure was developed by Destaco and is now a fundamental element of this type of equipment. We manufacture various devices for the safe and reliable fixation of workpieces and components, as well as for transportation, including both manual and automatic equipment. In today's world where robots are widely used in automation, the reliability and lightweight design of mounting equipment are essential requirements. Destaco also develops custom products and devices based on customer specifications, alongside its standard products. <Examples and Achievements> Press component transportation, plastic injection molding, food, pharmaceuticals, packaging, pallet loading. For more details, please contact us or download the catalog!

- Lightweight and compact. Easy robot attachment. 30% share in the international market. - Easy adjustment of clamp arm opening. <Main Advantages> - Uses shielded needle bearings in the drive shaft section. - Opening and closing angle adjustment within 20 seconds. - Handle position can be easily changed to either side at the installation site. - Easy separation of the connector from the proximity switch during repairs. - Protection for the sensor connector box. - No need for parts (Steel Risers) for opening adjustment. - Clamp arm design where force is evenly applied to all four sides of the drive shaft.

The inline sight glass provided by Steriflow complies with the extensive applications of ASME BPE and is particularly suitable for high-purity piping systems in the pharmaceutical and biopharmaceutical industries. The structure features a transparent window design that offers a wide field of view and does not require backlighting. The inner diameter of the glass tube and connection matches the pipe diameter, ensuring no fluid retention even when installed horizontally. Additionally, the sight glass window is suitable for various applications, especially for high-purity containers and piping systems in the pharmaceutical and biopharmaceutical industries. The large borosilicate window guarantees optimal visibility for processes. The SGW series combines borosilicate glass with stainless steel Tri-clamp™ rings using advanced technical methods. The two components form a continuous single unit with sufficient strength, without gaps or cracks, and there are no joining materials between the glass and the ring. !! For more details, please contact us or download the catalog !!

The Haskel gas booster features a small area gas piston directly connected to a large area air piston, with the gas piston operating within a high-pressure gas barrel. The gas barrel and end cap are equipped with check valves for intake and discharge. The air drive section includes a cycling spool and pilot valve, allowing for continuous reciprocating operation when compressed air is supplied to the air drive inlet. <Features of the gas booster> ★ No electricity is required as it is air-driven ★ No lubrication is needed in the airline ★ The air drive section and gas section are isolated, preventing hydrocarbon contamination ★ Maximum pressure can be increased up to 269 MPa ★ A wide range of models is available to accommodate various needs ★ Effective cooling utilizing exhaust from the driving air ★ Available in standard and customized versions ★ Compatible with most gases.

The FB6C pressure regulator controls the pressure of devices that require maintenance in a sanitary condition. The FB6C operates by sensing the pressure on the underside of the diaphragm downstream of the seat. When the downstream pressure approaches the set pressure, the force exerted by the pressure on the diaphragm begins to move the plug upward to close it, overcoming the force of the set spring. This reduces the downstream pressure and maintains the set pressure. When the pressure on the underside of the diaphragm begins to drop, the spring force pushes the plug downward to maintain the set pressure. <Features> • No sliding parts in contact with the fluid ‒ Prevents microbial growth • 100% 316L stainless steel body and trim • Self-draining • High precision (large diameter diaphragm with low droop) For performance data demonstrations of this product, please contact the distributor • A pin for dome lock can be inserted into the spring housing to accommodate CIP and SIP • EPDM diaphragm is highly corrosion-resistant and has FDA and 3A certification For more details, please contact us or download the catalog.

The FB5C back pressure regulator provides appropriate hard seats and a variety of diaphragms and O-ring materials for sterile back pressure applications. The FB5C operates by sensing the pressure or back pressure of the fluid supplied from the side-mounted inlet to the underside of the diaphragm. Back pressure above the set pressure compresses the spring through the load force of the diaphragm, causing the stem to function in an open state from the seat. As the flow rate increases and the back pressure is discharged, the forces of the spring and diaphragm are relieved, allowing the stem to return to its normally closed position. Changing the set pressure can be easily done by simply turning the adjustment screw to increase or decrease pressure within the range of the regulator spring settings. !! For more details, please contact us or download the catalog !!

3A certified. Liquid contact surface finish: 32Ra/0.8μm FB6903 is necessary to protect the product from backflow. The valve remains open due to forward fluid flow. If the flow is interrupted, the plug is held against the seat by a spring, closing the valve due to backflow. This valve is used in many sanitary applications and is a 3A certified product in accordance with the 58-01 standard. <Specifications> - Connection diameter: 1/2" to 4" - Connection type: Sanitary clamp - Body style: 3-part - Body material: 316SS - Seat material: EPDM or Viton - Metal surface finish: Liquid contact area 32Ra/0.8μm or further treatment - Pressure rating @ room temperature: 0.966MPa - Industrial standards and testing: 3A certification - 1/2" and 3/4" cracking pressure: < 0.069MPa - 1" to 4" cracking pressure: < 0.035MPa !! For more details, please contact us or download the catalog !!