Hydraulic Cylinder Performance Enhanced with Crack Simulation. Much like a human arm with interconnected bones, muscles, and tendons, earth moving equipment components must harness a complex array of parts to perform in perfect synchrony. Key to an earth movers fluid movements is an array of hydraulic cylinders, located along the boom, arm and bucket, that act as actuators to convert hydraulic energy into mechanical energy. Filled with pressurized oil that transmits force to move a piston, each cylinder barrel housing is a seamless steel tube designed to resist fatigue from the very high number of operating cycles that it endures. Earth mover with hydraulic cylinders on boom, arm, and bucket. However, operator error, accidental shovel overloads and accidental impacts from falling debris are regular occurrences on job sites. So Tenaris, a supplier of seamless tubes for earth moving machinery manufacturers worldwide, devotes considerable R D resources to anticipating such events. By studying the effects of a wide range of operational and environmental stresses on a cylinders service life, Tenaris can fine tune material design to best tolerate such extremes and improve safety for thousands of machine operators worldwide each year. The failure mode and the limit load beyond which a tube rupture can occur are extremely important to identify, explained Mihaela Cristea, a researcher in the structural integrity department at the Tenaris R D center in Dalmine, Italy. Our OEM customers are looking for high yield strength above all, so fracture toughness is the key parameter for ensuring integrity and safety. Fracture toughness plays a critical role in the leak before break behavior that is desirable in order to avoid the hazards that can result from a sudden, brittle fracture, said Cristea. In all situations ductile fracture, or cracking, is usually preferred for several reasons. Unlike brittle fracture, which occurs rapidly without warning, ductile materials plastically deform, slowing the process of fracture and providing a window of time to act. Particularly for hydraulic cylinder applications where the variable loads induce fatigue and the environment can be very severe low temperatures decrease fracture toughness, the ideal housing combines high tensile properties and fatigue resistance with good toughness. Reinforcement usually adds rigidity and greatly impedes crack propagation. Thin fibres can have very high strength, and provided they are mechanically well attached. Crack Propagation In Abaqus' title='Crack Propagation In Abaqus' />To reach these materials goals, Tenaris has been developing new high toughness HT grades of steel from which they can manufacture cold drawn precision tubes with improved combinations of toughness and strength. The primary stress on a hydraulic cylinder during normal operation comes from the internal pressure generated by the oil. Crack Propagation In Abaqus' title='Crack Propagation In Abaqus' />Read about Gautam Puri, the author of Python Scripts for Abaqus. Abaqus 6. 9 has introduced the ability to model cohesive cracks in the XFEM 1 framework using a version of the superimposed element formulation originally introduced. Moes, N., Dolbow, J., Belytschko, T. A finite element method for crack growth without remeshing, International Journal for Numerical Methods in. This is much greater around the circumference of the tube hoop stress than along its length the longitudinal stress is only about half the hoop stress. So as Tenaris develops its new materials they look to maximize this circumferential yield strength. In addition, they need to demonstrate that each material can also withstand a wide range of physical stresses that can happen unexpectedly on a job site. Critical defects from which fatigue cracks can initiate occur on the external surface of the tube, said Cristea. Overloading left and accidental falling debris right are common stress inducing conditions that impact hydraulic cylinders on the job. To prove out the performance and quality of their products, the Dalmine R D center has been conducting extensive full scale testing of its hydraulic cylinder products for many years. This process begins with detailed mechanical characterization and fracture tests on tube materials. Then artificial defects are manufactured on the external surfaces of full scale tubes by means of electro discharge machining. The tubes are then pre cracked to different depths, capped, and chilled to minus 2. C. Finally, they are pressurized with an alcohol water mix aluminum filler bars are inserted inside the tubes to take up space and thus avoid extreme volumes of high pressure fluid being released during bursting and subjected to burst tests. With this build and break test program we have been able to demonstrate the performance of our products to our customers in a way thats close to the real service behavior of the components, said Dalmine researcher Marco Spinelli. How To Use Srr Files. But the test regimen is complex and quite expensive. We wanted to find out if numerical models could effectively replicate our experimental results, reduce our costs and save us time. So the team turned to Abaqus unified finite element analysis FEA, from Dassault Systmes SIMULIA brand, for realistic simulation of their fracture toughness testing regime. They were already familiar with the power of FEA, using it for stress distribution analysis in welded joint applications and structural analysis of complex components. The suite of software applications available with Abaqus is widely used for product design in our R D center, mainly due to its pre and post processing advantages, Spinelli added. We felt we had the tools in hand for deepening our inquiries into the performance of our new materials. High toughness steel burst test and AbaqusExplicit model left upper and lower and low toughness steel and AbaqusExplicit right upper and lower. Since they already had recorded a great deal of accurate real world test data, the group was able to create very precise FEA models of their cylinders using the materials definitions, geometries, crack dimensions, boundary conditions, and burst pressures that were identified during their previous experiments. Crash Bandicoot 3 Warped For Pc. Fibonacci Series Program In Tcl'>Fibonacci Series Program In Tcl. While the focus was on HT materials, low toughness material models were also examined to evaluate the overall performance of the software for predicting failure. The Tenaris team decided to try two methods in Abaqus for 3. D crack modeling ductilefracture in Explicit and the new e. Xtended Finite Element Method XFEM capability in AbaqusStandard. Within AbaqusExplicit, the team found they could take advantage of tube symmetry to create 18 models and reduce simulation time. Pressure was applied to the inner surface of the model, ramping up from zero to burst 1. Crack occurrence was simulated by employing element deletion to signal when the plastic strain in a particular part of the model reached the critical value previously identified through the real world burst tests When the failure criterion is met for a particular element, that element drops out of the model, leaving a space behind. The series of connected, deleted element spaces creates the appearance of the crack. The Explicit simulation phenomenon is essentially static until the opening of the initial crack, after which the analysis becomes dramatically dynamic. Just as in the case with the real world tests, the models demonstrated the more desirable ductile failure mode when the material was HT steel and a brittle failure mode with low toughness steel. When we compared our simulations with the real world tests, we had excellent results predicting the failure modes for the cases we were investigating, said Cristea. Here is the traditional build and break methodology in action Shown a hydraulic cylinder in a burst test machine. After a series of AbaqusExplicit modeling exercises, the team ran a final test case using XFEM.