Infinit Technologies

FM-1849-04 Hydrostatic Pressure Apparatus This product allows students to measure the moment due to the fluid (hydrostatic) thrust on a fully or partially submerged plane. The plane works in either a vertical or inclined (angled) position. Students then compare their measurements with theoretical analysis. The equipment consists of a vertical panel that holds a clear plastic quadrant, to which students add water. The quadrant has lines to help students keep the plane in a vertical or angled position. The cylindrical sides of the quadrant have their central axis coincidental with the moment measurement axis. The total fluid pressures on these curved surfaces therefore exert no moment about this pivot. Therefore, the moment is only due to the fluid pressure on the plane test surface. Students measure this moment using weights suspended from a lever arm. A scale on the panel of the apparatus shows the head of water. To perform experiments, students level the apparatus using its leveling feet and spirit (bubble) level. They decide whether to test either a vertical or inclined plane. They then initially balance the quadrant tank using balancing weight at top. They take results by balancing sliding weight with known quantities of water. They then use the results to calculate the equivalent moment of force (M) or hydrostatic thrust. Students note the relationship between the moment and the water height (h). The equipment can use non-toxic water dye (not included) to help students see the water levels more clearly. Supplied with comprehensive user guide For More Details: https://lnkd.in/dsbd4cU3 WhatsApp: +1 667-294-0971 Visit us: https://lnkd.in/dserBAA5 #chemicalengineering #electricalengineering #mechanicalengineering

FM-1849-03 Metacentric Height Apparatus Determination and analysis of the stability of floating bodies, such as ships, rafts and pontoons, is important throughout many branches of engineering. This experiment allows students to determine the stability of a pontoon with its center of gravity at various heights. They can then compare this to predictions calculated from theory. The experiment consists of a rectangular pontoon floating in water made of plastic. The pontoon has a plastic sail with five rows of slots. These rows are at equally spaced heights on the sail. The slots are equally spaced around the center line. To change the center of gravity and the tilt (list) angle of the pontoon, students fit an adjustable weight into one of the slots. A plumb line from the top center and from the left side used to measure the center of gravity of the floating body. the scale with indicator indicates the till angle of floating body. Students obtain fore and aft balance by positioning two small trim weights on the bottom of the pontoon. For More Details: https://lnkd.in/dBg5Qm2F WhatsApp: +1 667-294-0971 Visit us: https://lnkd.in/dserBAA5 #chemicalengineering #electricalengineering #mechanicalengineering

FM-1849 Hydraulic Bench Apparatus The Basic Hydraulic Bench permits a varied experimental cross-section in the fundamentals of fluid mechanics. The unit provides the basic equipment for individual experiments, the supply of water in the closed circuit. The determination of volumetric flow rate and the positioning of the experimental unit on the working surface of the base module and the collection of dripping water. The closed water circuit consists of the underlying storage tank with a powerful centrifugal pump and the measuring tank arranged above, in which the returning water is collected. The measuring tank is stepped, for larger and smaller volumetric flow rates. A measuring beaker is used for very small volumetric flow rates. The volumetric flow rates are measured using a stopwatch. The top work surface enables the various experimental units to be positioned easily and safely. A small flume is integrated in the work surface, in which experiments with weirs are conducted. For More Details: https://lnkd.in/g6pV7AqY WhatsApp: +1 667-294-0971 Visit us: https://lnkd.in/dserBAA5 #chemicalengineering #electricalengineering #mechanicalengineering

FM-1849-02 Flow Over Weirs Apparatus with Weir Tank The flow over weirs apparatus, designed to fit seamlessly onto the weir tank, effectively demonstrates how weirs function as simple flow regulators. This setup enables students to conduct experiments on the relationship between upstream water levels and weir discharge for various notch shapes, using standard laboratory supplies or hydraulic bench. They can then compare their findings with theoretical expectations. The equipment consists of a molded tank with a central channel. One end of the tank is wider, while the other is deeper. Each weir is placed in a sealed groove within the channel section. Constructed from plastic materials and featuring corrosion-resistant finishes, the apparatus is designed to withstand wear over time. Water is supplied from the hydraulic bench or laboratory to the wider end of the tank. It flows through the channel and over the weir, allowing students to observe the discharge at the deeper end of the tank. An adjustable depth gauge, mounted on a beam across the channel, enables students to measure the free water surface accurately. Water exits the tank back to the hydraulic bench or into the laboratory drain. For More Details: https://lnkd.in/dwDzMuka WhatsApp: +1 667-294-0971 Visit us: https://lnkd.in/dserBAA5 #chemicalengineering #electricalengineering #mechanicalengineering

A Mechanical Engineering Student Training Apparatus is a specialized educational tool designed to provide hands-on learning experiences in mechanical principles, systems, and processes. These apparatuses help students understand key concepts like thermodynamics, fluid mechanics, material strength, and machine dynamics through practical experimentation. Common types include heat transfer units, turbine models, hydraulic trainers, and stress analysis kits. By using these training systems, students can bridge the gap between theoretical knowledge and real-world applications, enhancing their problem-solving skills and technical expertise. For More Details: https://lnkd.in/dZjAvztK WhatsApp: +1 667-294-0971 Visit us: https://lnkd.in/dserBAA5 #chemicalengineering #electricalengineering #mechanicalengineering

FF-1131 Pressure Distribution in Journal Bearings Tribology encompasses all types of friction, including dry, mixed, and fluid friction, all of which can be observed in journal bearings. Under operational conditions, distinct fluid friction occurs, where the shaft and bearing shell are separated by a supporting lubricating film. This film’s supporting role can be analyzed through the pressure distribution within the bearing gap. The experimental setup visualizes the radial pressure profile in a journal bearing with hydrodynamic lubrication. It features an open bearing shell that partially encloses a shaft to simulate the journal bearing. The bearing shell is mounted on two spring plates that allow it to move. Unlike actual hydrodynamic journal bearings, the gap width can be adjusted using the radially movable bearing housing, controlled by the spring plates and a micrometer screw. The unit’s display and control panel shows the speed and enables its continuous adjustment. Pressure measurements are taken at 13 points around the circumference of the bearing shell, with readings obtained from 13 tube manometers by measuring the liquid column height. Lubricant oil is used to simulate bearing circumferential pressure, and the transparent bearing shell permits close observation of the experiment. For More Details: https://lnkd.in/dSt748jn WhatsApp: +1 667-294-0971 Visit us: https://lnkd.in/dserBAA5 #chemicalengineering #electricalengineering #mechanicalengineering

FF-1130 Journal Bearing Friction In this apparatus, a journal bearing study including a stainless steel shaft journal and a free-moving bearing housing made of sintered bronze, cast iron, and Teflon can be carried out. With the use of this equipment, journal bearing tribology phenomena can be studied. The drive is a three-phase AC motor with a variable frequency drive for speed regulation. Using the top tnurled screw and two spring balances, force can be imparted to the bearing. By doing so, the user is able to gauge the friction moment produced in the bearing. The defined load is applied to the bearing by the lever and a set of weights. Both the lubricating gap and the bearing journal are visible. A drip-feed lubricator that distributes oil to the shaft through a lubrication channel provides lubricant. The oil that spills out is collected in a drip tray. On the panel, a digital display shows the temperature of the lubricant as well as the continually adjustable speed. A step-by-step walkthrough of the experiments is provided in the comprehensive training material, which also lays out the principles. For More Details: https://lnkd.in/dtGj-8Yw WhatsApp: +1 667-294-0971 Visit us: https://lnkd.in/dserBAA5 #chemicalengineering #electricalengineering #mechanicalengineering

FF-1129 Dry Friction Friction is a key factor in mechanical engineering. Static friction needs to be adequate to fix components to each other, such as parking brakes, self-locking threads and frictionally engaged connections. Dynamic friction needs to be kept as low as possible, such as on bearings, in guideways or in shaping tools. Consequently, great attention is paid to the topic in engineering mechanics, and understanding of it is enhanced by clearly laid-out experiments. TM-1344 provides a broad range of experiments relating to static and dynamic friction between solid bodies which are in contact with each other and moving relative to each other. Various influences on friction can be investigated, such as surface properties and material pairing. A support friction surface slides beneath the stationary friction body. The support friction surface is held in a carriage which is drawn along by a motor at uniform velocity by a motor. The friction body is connected to a height-adjustable force measuring unit. This ensures that the lines of action of friction force and tensile force are parallel. The force measuring unit is essentially a force gauge which is fitted independently to compensate as far as possible for slip/stick effects and so indicate a mean friction force (with no spiking). Different support surfaces and four friction bodies are available. The normal force can be varied by adding weights. Experiments can be performed at two constant velocities. For More Details: https://lnkd.in/dhewHgvU WhatsApp: +1 667-294-0971 Visit us: https://lnkd.in/dserBAA5 #chemicalengineering #electricalengineering #mechanicalengineering

FF-1128 Pin-Jointed Frameworks The experiment hardware fits onto a Frame. Students use stainless-steel members to build different pin-jointed frameworks. The members join by slotting the ends into bosses. The equipment includes two framework supports: a pivoting support, and a pivoting and rolling support. Each member has a strain gauge attached that connects to a digital strain bridge. A load cell applies loads to the structure at various angles. When connected to the Digital Force Display, the load cell measures the applied load. A digital deflection gauge measures the deflection and the digital display shows the forces in the members. The manual provides details of the equipment including sample experiment results and also describes how to use the equipment and gives experiment procedures. For extra ‘virtual’ experiments, company can supply the optional Software, for use on a suitable computer. The virtual experiments simulate the tests you can perform with the hardware. They also extend the choice of tests beyond that available using only the hardware, for example: higher loads, uniform loads or different test specimens. This extends the student’s, learning experience. For automatic data acquisition of your experiment results, optional Automatic Data Acquisition Unit can also be purchased. Supplied as standard with the Structures Software that displays and logs your experiment results and gives the extra virtual experiments. For More Details: https://lnkd.in/dX_-hUWc WhatsApp: +1 667-294-0971 Visit us: https://lnkd.in/dserBAA5 #chemicalengineering #electricalengineering #mechanicalengineering

?? Celebrating American Scientist & Inventor Day! ???? On this February 28, 2025, Infinit Technologies honors the brilliant minds who have shaped our world with groundbreaking discoveries and revolutionary inventions. From Thomas Edison’s light bulb to Nikola Tesla’s innovations in electricity and Grace Hopper’s contributions to computing, American scientists and inventors have paved the way for modern technology. At Infinit Technologies, we draw inspiration from their genius to push the boundaries of innovation in AI, digital solutions, and technology-driven excellence. Let’s continue to think, create, and innovate for a smarter future! ?? Who’s your favorite American inventor or scientist? Let us know in the comments! ?? WhatsApp: +1 667-294-0971 Visit us: https://lnkd.in/dserBAA5 #AmericanScientistDay #InventorsDay #Innovation #InfinitTechnologies #FutureOfTech ??