Chirag Chudasama’s Post

Solve Measurement Challenges for Pre-Stressed Concrete Pipes - The Flexim FLUXUS® WD series is a high performance non-intrusive ultrasonic flowmeter that can penetrate the walls of large and complex Bonna pipes to deliver accurate flow data. Learn more here >

Assessing Pile Integrity with Thermal Integrity Profiling Thermal Integrity Profiling (TIP™) is a technology that utilizes the heat generated by curing of concrete to assess the integrity and quality of drilled shafts, augered cast in place (ACIP), micropiles and other concrete foundations. From the test results, necks, bulges, the as-built shape of the shaft, and variations in concrete cover and including steel cage eccentricities, can be characterized. Learn more: https://hubs.la/Q02HqVsd0 #GRLEngineers #TIP

Comparing Costs of Concrete Testing Methods: REBEL Sensors vs. Cylinder Breaks When it comes to concrete testing, traditional cylinder breaks can be quite costly, often reaching around $14,000 when managed internally or through a test house. In contrast, our REBEL Sensor System offers a different approach: Sensor Cost: $400 Labor: Approximately 1 hour ($100) Overhead & Profit: $200 Total Cost for Deploying One REBEL Sensor (equivalent to 15 cylinder breaks): $700 This represents about a 50% saving compared to traditional cylinder breaks. Additionally, the REBEL system is easy to implement, reducing both time and resources needed for concrete strength testing.

Thermal Integrity Profiling (TIP) Thermal Integrity Profiling (TIP™) is a technology that utilizes the heat generated by curing of concrete to assess the integrity and quality of drilled shafts, augered cast in place (ACIP), micropiles and other concrete foundations. From the test results, necks, bulges, the as-built shape of the shaft, and variations in concrete cover and including steel cage eccentricities, can be characterized. #GRLEngineers #TIP

Balancing the desire for weight reduction with the need for sufficient wall thickness is important. Thinner walls offer weight savings but must still meet strength and durability requirements for the application. #SteelFitnessJourney #StainlessStrength #WallThickness

When a 24mm steel bar snaps before your grout yields, you know you've got a strong performer! Swinburne University of Technology put two of our Conbextra grouts to the test, and even we were amazed with the results! Conbextra EP10 and Conbextra EP65 were subjected to pull-out tests of bonded anchors in concrete. Both demonstrated outstanding strength after only 3 days of curing. However, as Fosroc's Product Segment Specialist – Repairs & Grouts, Hamid Khan, points out, effective grouting and anchoring relies on more than strength alone. With a proven capacity to tolerate dynamic loads, chemical exposure, extremes of heat and harsh natural exposure, Fosroc Conbextra grouts are the ideal choice for critical load-bearing situations. Read more about the results from independent testing of our anchoring grouts on our website: https://bit.ly/4f9lt4d

"🔍✅ Ensuring precision in construction projects is paramount, especially when it comes to borehole integrity. Check out this insightful practice video showcasing how to effectively test borehole diameter, verticality, and sediment thickness using the cutting-edge Tensense Ultrasonic Borehole & Diaphragm Wall Monitor. Watch now to learn essential techniques for maintaining accuracy and quality in your construction endeavors! #Construction #BoreholeTesting #PrecisionMonitoring"

Q - Why would an application specify a thin-walled tube?  Thin-walled tubing is often requested for applications requiring lightweight construction, increased flexibility, and improved heat transfer, or where space constraints and fluid flow efficiency are crucial. Read more - https://lnkd.in/ebapunJz #ThinWalledTubing #LightweightDesign #stainlesssteeltubing

🔨 Concrete Rebound Hammer NOVOTEST MSh The NOVOTEST MSh rebound hammer (sclerometer) is designed to test the strength of concrete and other construction materials with precision. By hitting the surface with standardized impact energy and measuring the rebound height, the strength of the material is determined using calibration charts provided with the device. 🌟 Available in 3 models with different impact energies, the NOVOTEST MSh can be used for testing various types of concrete and building materials, ensuring non-destructive and accurate results. ✔️ Select the correct model based on your specific testing needs! 📧 For inquiries or to place an order, contact us today! 🔗 Learn more: https://lnkd.in/dfPA2tit 📧 Email: [email protected] | [email protected] 📞 Phone: +380675132094 (WhatsApp) ▶️ Video: https://lnkd.in/dqtbz-Zy #ConcreteTesting #ReboundHammer #NonDestructiveTesting #NOVOTEST #ConstructionQuality #BuildingMaterials #ConcreteStrength #NDT #StructuralTesting #QualityControl

Low Strain Impact Integrity Testing is a non-destructive method for assessing the integrity of augered cast-in-place piles, drilled shafts, or driven concrete or timber piles. If significant defects are present, test results can estimate their size and location, as well as determine pile length. The Low Strain Test, also known as Pile Integrity Test (PIT) are typically conducted post-installation and curing of the foundation, requiring minimal pile preparation. Due to their simplicity, speed, and cost-effectiveness, these integrity tests can be applied to 100% of piles on-site, and can sometimes be used for existing foundations. YJACK engineers use a handheld hammer to strike the top of the foundation. The impact generates a compressive stress wave within the pile or shaft, monitored by an accelerometer placed atop the structure. As this stress wave travels down the shaft, it reflects upon encountering the base or irregularities, altering the acceleration signal at the pile top. This signal is captured and analyzed using MrGeo - Low Strain Pile Integrity Tester (MrGeo-LSPIT) equipment, interpreted by experienced YJACK engineers. DM us for more information! #YJACK #PileIntegrityTest #LowStrain #PileTest