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Kaipātiki, New Zealand
1-10 Employees
1979
We are a quality ISO9001certified value added load cell maker. PT Ltd is an ISO 9001 accredited manufacture and has been designing and engineering measurement solutions for the weighing industry from Auckland, New Zealand since 1979. Formerly known as Precision Transducers and exporting to 160 countries around the world, we are your one stop shop for all weighing needs. If you’re looking for high quality weighing equipment direct from a world class manufacturer, look no further. Test us on quality, delivery & price — we are sure to meet and exceed your expectations. PT Limited is the famous New Zealand Load Cell Manufacturer with over 30 years continuous production. Through our owned and controlled companies in Australia and China we offer a wide range of Load Cells, including Low Profile, Tension, Shear Beam, Compression, Miniature Load Cells, Donut Load Cell, and Single Points all with a wide variety of complimenting accessory hardware. PT also stock a full range of high accuracy strain gauge pressure transducers manufactured from stainless steel and suitable for many applications in the hydraulics and the process control industries.
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Bending Beam, 350kg Capacity
... Precision bending beam constructed in stainless steel with a fully sealed stainless steel bellows for super accuracy and maximum protection. Low ...
Hull, United Kingdom
1-10 Employees
Besides Zematra also has a line for analyzing trace elements. Together with our service and marketing department, responsible for the line of laboratory equipment to full size, which is used in the (Petro) chemical industry, Zematra B.V. Zematra is a major player in Europe for the supply of (petro) chemical laboratory equipment and a global player for our own line of laboratory test equipment and condition monitoring instruments. Zematra started a collaboration with the company Labplant in the UK. In March 2009 Zematra and Imotron moved to the new building in Halsteren. Zematra expanded with the new sister company, Imotron Instruments B.V. Zematra moved to larger premises, the staff grew to a total of 7 people. Zematra launches a full line of (petro) chemical test equipment.
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TE-BBR Thermoelectric Bending Beam Rheometer
... The TE-BBR Thermoelectric Bending Beam Rheometer for Low Temperature Flexural Creep Testing of Asphalt Binders. ASTM D6648, AASHTO T313. ...
South Oxfordshire, United Kingdom
11-50 Employees
1979
At Thames Side we are extremely proud of our commitment to Quality, demonstrated by our certification to the latest ISO 9001:2015 standard and our exceptionally low warranty claim rate. In addition, we are always aware of the 'cost of ownership' in times of economic instability. We are passionate about reducing the impact of our activities on the environment and public health. We are continuously assured by our customers that you will find our quality to be excellent and our pricing to be very competitive. Thames Side Sensors is the UK market leader and also World Leader in Load Cells and Innovative Weighing Modules for Silo Weighing, Vessel Weighing and Process Weighing. Our product range comprises high performance load cells with innovative and unique weighing modules, connected to reliable, rugged, user-friendly instrumentation. Our product range in 2 words: Total Reliability. As a solutions provider, our expertise and unrelenting commitment to quality and customer service is renowned throughout the International Marketplace.
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T66 Bending Beam
... T66 Bending Beam Load Cell | Thames Side ...
Giza, Egypt
1-10 Employees
2009
Expanding our products and services in the coming 3 years in order to cover all the market needs and reach more customers. We offer support for our customers Sunday - Thursday 9:00am - 6:00pm (GMT +2). Our company based in Egypt and our services covers Egypt, North Africa and the Middle East. Our Staff is a group of talented & professional Engineers full of enthusiasm and seeking perfection. ZF is the sole agent and exclusive distributer in Egypt, Libya & Sudan of: - Thames Side Sensors Ltd (U.K ) (since 2009) - Rinstrum (Australia) (since 2010) - Scaime (since 2011) - A&D (since 2016) - Scotload (2017). We devise innovative applications and solutions to fit your requirements. Is to add ideas to industry and provide our customers with the most professional solutions in the weighing systems industry by introducing new techniques which develop and improve the productivity and increase the accuracy of your process to achieve a high return on investment. Design, innovation, uniqueness, high quality, accuracy, delivery time, time management, warranty, performance, worldwide partners, after sale service, spare parts availability, technical support 24/7, qualified team, best price.
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The | T66 | Bending | Beam | Load Cell |high | precision |
... T66 Bending Beam load cell is a high precision stainless steel bending beam is a world class load cell and widely used in industrial weighing applications. ...
Special Capital Region of Jakarta, Indonesia
11-50 Employees
2019
We provide a wide range of laboratory equipment for all the solutions you need.Some of the solutions that we have :. We provide a wide range of laboratory equipment for all the solutions you need. Become a leading laboratory equipment trading company in Indonesia. PT Wadya Prima Mulia was established in September 2019 as a trading company engaged in the sales sector and the authorized distributor of various principals of laboratory equipment and science equipment in Indonesia. To realize our dream to be number one, we always try to provide excellent service, products with the best solutions and continuous development to keep up with the times. We have a wide range of products for all your solutions ranging from laboratory, hospital to university solutions. With various well-known principals we will provide the best products with excellent service for customer satisfaction.
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Z6 Bending Beam Load Cell
... Z6 Bending Beam Load Cell: The Market Standard for Precision and Robustness in the Weighing Range from 5 kg to 1 t The precise Z6 bending beam load cell, developed by HBM in 1972, has been continuously optimized for decades. Z6 is based on strain gauge technology. It is available in ...
Tewkesbury, United Kingdom
1-10 Employees
Avantech is a relatively small but an efficient organization which was started by an engineering professional. In this quest, we are always studying and adding new innovations and technologies to our product line that can benefit of our customers. To become the most reliable suppliers of innovative technologies to our customers by consistently offering better solutions to improve productivity and competitiveness. We believe that previous technologies will not remain relevant for today's requirements and today’s solution will not be adequate for tomorrow.
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H-1642.5F Bending Beam Rheometer
... The bending beam rheometer (BBR) performs flexural tests on asphalt binder and similar specimens per tests, initially developed by the Strategic Highway Research Program (SHRP), which consist of a constant force being applied to a specimen in a chilled fluid bath in order to derive specific ...
Liestal, Switzerland
1-10 Employees
1973
Die Firma MOSTEC AG ist seit über 40 Jahren in der Elektronikentwicklung für Mess- und Regelsysteme tätig. Elektronikentwicklung ist unser Fachgebiet und unsere Leidenschaft, daher garantieren wir Ihnen bei MOSTEC kundenspezifische Lösungen, schnellen Service sowie eine hohe Qualität unserer Produkte. Neben unseren Standardgeräten bieten wir massgeschneiderte Produkte, auch für kleine Stückzahlen, an.
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Bending beam type M2428-13
... The M2428-13 is a low-cost bending beam to measure weights or forces. ✅ professional ✅ individual ✅ top quality. ☎ 061 921 40 ...
Hof HaCarmel Regional Council, Israel
11-50 Employees
Shkila was established in 1983 to give the industrial logistics market a professional weighing solutions partner. Shkila’s solutions range from standard scales to fully automated weighing systems that control procedures and collect data in real time, from laboratory weighing to weigh bridges. Headquartered in Caesarea business park, Shkila has acquired and built its own building.
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Beam load cells (shear/bending/double)
... Beam load cells (shear/bending/double) - ...
St Leonards, United Kingdom
11-50 Employees
1972
We are happy to produce special design variants of all types from our standard catalogue range of more than 50 product families or to design something completely new to meet your requirements. We are proud of our vast expertise in designing bespoke loadcells that are the optimum solution for our customer’s application or process including vacuum, high temperature and submersible loadcells. We are also experts in multi-axis loadcells and static torque transducers and we can provide a selection complementary instruments and telemetry. This is true not only for standard products but for an increasing variety of special loadcells, which are designed to meet specific application driven requirements. Various combinations are available on most product styles upon request. We offer in-house loadcell calibrations from 0.1N to 1000kN (10gf to 100tonnef) in tension and compression, extending to 2000kN (200tonnef) in compression only that are traceable to European standards. As a manufacturer we can repair and recalibrate all our loadcells, both standard and bespoke designs. We also recalibrate and repair loadcells made by other manufacturers.
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F238 Binocular Bending Beam
... The F238 is a compact binocular bending beam loadcell for force measurements. This type of binocular beam is often referred to as a single point loadcell. ...
Alfdorf, Germany
Wir stellen an unsere Produkte sehr hohe Qualitätsanforderungen. Unsere Produkte werden ständig weiterentwickelt, was auch durch den engen Kontakt zum Kunden weiter unterstützt wird.
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Bending Beam Load Cell F60X - Lorenz Messtechnik GmbH
... Bending & Shear Beam Load Cells of Lorenz Messtechnik ...
Technologies which have been searched by others and may be interesting for you:
Some interesting numbers and facts about the results you have just received for Beam Bending
| Country with most fitting companies | United Kingdom |
| Amount of fitting manufacturers | 58 |
| Amount of suitable service providers | 39 |
| Average amount of employees | 11-50 |
| Oldest suiting company | 1972 |
| Youngest suiting company | 2019 |
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Beam bending refers to the deformation of a beam under load, a fundamental concept in the field of structural engineering and materials science. This deformation occurs due to forces or moments applied to the beam, causing it to curve and undergo stress. The extent and nature of bending depend on several factors, including the material properties of the beam, the manner in which load is applied, and the beam's geometric characteristics. In engineering, understanding how beams bend is crucial for designing structures that are both safe and efficient. It enables engineers to predict how buildings, bridges, and other structures will respond to various loads, such as those from weight, wind, or seismic activity. By calculating the bending moments and stresses within a beam, engineers can determine the required dimensions and materials for a beam to withstand expected loads without failure. This calculation is essential for ensuring that structures do not deflect excessively, maintain their integrity over time, and adhere to safety standards. Moreover, advancements in materials science have led to the development of new materials and composites that exhibit superior performance under bending, further enhancing the safety, efficiency, and sustainability of modern structures. The study and application of beam bending principles, therefore, play a pivotal role in the advancement of construction technologies and the development of safer, more resilient infrastructure.
1. Cost Efficiency
Beam bending is generally more cost-effective compared to other fabrication processes. This method reduces the need for welding and joining multiple parts, effectively lowering labor costs and material wastage. By shaping beams to specific requirements through bending, manufacturers can achieve precise configurations without the extra expense of complex assembly procedures.
2. Versatility in Design
The beam bending process offers unparalleled versatility in creating complex shapes and configurations. This flexibility allows for the customization of beam shapes to fit unique architectural or structural design needs, which might be challenging or impossible to achieve with standard beams or through alternative methods. It opens up possibilities for innovative design solutions in construction and engineering projects.
3. Strength and Durability
Bent beams exhibit enhanced strength and durability due to the nature of the bending process. The method preserves the integrity of the metal, maintaining its internal grain structure, which can lead to a stronger, more resilient final product. This characteristic is particularly beneficial in structures requiring high load-bearing capacity and longevity, ensuring they withstand various stresses over time without compromise.
4. Improved Aesthetic Appeal
The ability to customize beam shapes through bending also contributes to improved aesthetic appeal in architectural designs. Architects and designers can incorporate unique, flowing lines and curves that are difficult to achieve with straight, unbent materials, allowing for more visually striking and distinctive structures.
While evaluating the different suppliers make sure to check the following criteria:
1. Experience and Expertise
Ensure the supplier has a strong track record in beam bending, with specific experience in the type of beams (steel, aluminum, etc.) you require.
2. Technology and Equipment
Verify that the supplier uses up-to-date technology and machinery that can handle your specific beam bending needs.
3. Quality Control Processes
Check that the supplier has robust quality control measures in place to ensure the final product meets your specifications and industry standards.
4. Capacity and Turnaround Time
Confirm the supplier can handle your volume requirements and offer a turnaround time that fits your project schedule.
5. Cost-Effectiveness
While not compromising on quality, assess the supplier's pricing to ensure it aligns with your budget.
6. Customer Service and Communication
Evaluate the supplier's responsiveness and clarity in communication, ensuring they understand your needs and can provide timely updates.
Beam bending, a fundamental process in construction and manufacturing, plays a pivotal role in various industries by enabling the creation of custom shapes and structures essential for specific applications. In the construction industry, beam bending is crucial for creating the curved steel beams used in modern architectural designs. This technique allows for the construction of aesthetically pleasing and structurally sound buildings, bridges, and tunnels, which require the strength and flexibility that bent beams provide. The automotive sector also benefits significantly from beam bending. Here, it's employed in the manufacturing of vehicle frames and chassis components. The ability to precisely bend metal beams into specific shapes is essential for producing vehicles that meet rigorous safety and performance standards. Moreover, the aerospace industry relies on beam bending for the fabrication of aircraft components. The precise bending of beams is critical for producing parts that can withstand the extreme stresses and temperatures encountered during flight, ensuring the safety and reliability of aircraft. Lastly, in shipbuilding, beam bending is indispensable for forming the hulls and frames of ships. The process allows for the production of strong, curved sections that are essential for creating vessels capable of navigating the harsh conditions of the sea. Each of these use cases underscores the versatility and importance of beam bending across different sectors, highlighting its role in the development of innovative and durable products.
Beam bending, a crucial process in the manufacturing and construction sectors, is predominantly positioned at a high Technology Readiness Level (TRL), typically between 8 and 9. This classification stems from the extensive validation and demonstration of beam bending techniques in actual operational environments. Over the years, advancements in materials science and engineering have significantly enhanced the precision and efficiency of beam bending methods. Techniques such as cold bending, hot bending, and induction bending have been rigorously tested and optimized, ensuring their reliability and effectiveness in creating complex structures and components. The maturity of the technology is further evidenced by the widespread adoption across various industries—including aerospace, automotive, and civil engineering—where the ability to manipulate the strength and shape of beams is fundamental. Technical reasons underpinning its high TRL include the integration of computer-aided design (CAD) and manufacturing (CAM) processes, which have improved the accuracy of bend angles and the consistency of outcomes, alongside the development of specialized machinery capable of handling diverse materials and specifications. These technological advancements, combined with a comprehensive understanding of the mechanical properties influencing beam bending, like stress distribution and elasticity, underscore the high readiness level of this essential manufacturing process.
In the short-term, advancements in beam bending technology are expected to focus on enhancing precision and reducing waste. Innovations in computer-aided design (CAD) and manufacturing (CAM) tools will enable more accurate calculations and adjustments during the bending process. This phase is likely to see the introduction of smarter, AI-driven systems that can predict and compensate for potential errors in real-time, leading to improvements in material utilization and overall efficiency. Looking towards the mid-term, the development of new materials and techniques is anticipated to revolutionize beam bending processes. Composite materials, offering superior strength and flexibility, will become more prevalent, allowing for more complex and ambitious architectural designs. Additionally, the integration of augmented reality (AR) in the design and bending process will provide engineers and technicians with enhanced visualization capabilities, facilitating more precise and innovative structural solutions. In the long-term, the focus will shift towards sustainability and automation. The adoption of fully automated beam bending systems, powered by advanced robotics and AI, will streamline operations, reducing the need for manual labor and minimizing human error. Moreover, research into eco-friendly materials and energy-efficient bending methods will gain momentum, aligning with global sustainability goals. These advancements will not only improve the efficiency and accuracy of beam bending but also contribute to the construction industry's environmental stewardship.
Some interesting questions that has been asked about the results you have just received for Beam Bending
What are related technologies to Beam Bending?
Based on our calculations related technologies to Beam Bending are Industrial Electroplating, Industrial Filtration, Industrial Sintering, Industrial Extrusion, Industrial Handling
Which industries are mostly working on Beam Bending?
The most represented industries which are working in Beam Bending are Manufacturing, Science and Engineering, Commerce and Shopping, Retail Trade, Energy
How does ensun find these Beam Bending Companies?
ensun uses an advanced search and ranking system capable of sifting through millions of companies and hundreds of millions of products and services to identify suitable matches. This is achieved by leveraging cutting-edge technologies, including Artificial Intelligence.
