Influence of a Fillet Weld Toe Crack on the Static Strength of 37SiMnCrMoV Steel Plate with a Welded-on Attachment
WELDING AND INSPECTION FOR THE FILLET WELD OF 300 MW BOLER STEAM DRUM
Description on Analysis of Dangerous Defects and Nondestructive Testing Method of Fusion Fillet Weld of Anchor Box for Cable Stayed Bridge
Quality Control of the Fillet Weld in the Tube and Tube Sheet of Heat Exchanger
The cracks(a/2c=0.05, 0.1; a/t=0.2, 0.4)were cut by electric spark method at the toe of fillet weld. Experiments were also made on wide plate specimens without welded-on attachments for comparison.
DISCUSSIONS ON STATIC STRENGTH OF END FILLET WELDS AND RELATED CALCULATING FORMULAE
Ultrasonic Testing for Fillet Welds of Safety Valve of Super-Heator, Reheator of 125MW Unit
Research on Ultrasonic Testing of Part-inserted Fillet Welds of Heads in 300/600 MW Capacity Generating Units
The reasons of seriously cracking met on fillet welds between Cr5Mo boronized steel tubes and 1Cr18Ni9Ti baffle plate is analyzed. The methods to prevent cracking from the fillet welds and effective measures to obtain good quality are introduced.
ULTRASONIC TESTING FOR FILLET WELDS OF I BEAM STRUCTURE WITH LACK OF PENETRATION
Research on Fatigue of Fillet Welding of 16Mn Steel
Fillet Welding Seam-Tracking Simulation and Intelligent Control System for Mobile Robot
Extraction of Analysis and Treatment of the Fillet Welding Cracking on FCC Depositor
Single Chip Microcomputer Control System for Fillet Welding Seam Tracking on Robot with Rotating Arc Welding Sensor
At the present time, the fillet welding seam-tracking of big work piece mainly depends on touched sensor, the shortcoming of it is wearing away quickly and deformation easily.
On the basis of experiment results processed offline, A fuzzy controller and software used in real time seam tracking of vertical fillet joint is designed.
The experimental result of welding vertical fillet joint at every position shows that the automatic seam tracking system is steady and the seam tracking precision is satisfied with the welding request of vertical fillet joint.
通过对各个位置的垂直 角焊缝进行焊接跟踪实验，结果表明，系统工作稳定，跟踪精度满足垂直 角焊缝的焊接要求。
In this paper an automatic seam-tracking system using RAT-1 are sensor with high speed rotating are is developed. A single piece microcomputer 8031 of MCS -51 series is used for the control of the system. The signal detecting and processing during MIG/MAG welding in the case of V-groove butt joint and horizontal fillet joint is studied as well.
利用研制的RAT－1型旋转电弧传感器，采用MCS－51系列单片机进行控制，研究了MIG／MAG焊接V型坡口及 角焊缝时传感信号的提取、处理等问题，实现了V型坡口及 角焊缝的双向自动跟踪。
Through mctallograph examination and chemical composition analysis, the cracking on fillet joint of tube box is proved to be stress corrosion cracking.
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Upper bound estimate of tension load in tension of welded and brazed plates having an oblique fillet weld seam containing a crac
A simple and sufficiently accurate solution for the ultimate stretching load of a welded (brazed) plate having an oblique fillet weld seam that contains a crack has been obtained.
Measurements of fillet weld by 3D laser scanning system
The external geometry of a fillet weld affects not only the quality but also the safety of a structure.
Two parameters that influence the geometric quality of a fillet weld are the weld size and the weld surface profile.
An exact solution on the stress analysis of fillet welds
An exact solution on the stress distribution of fillet welds is obtained in this paper.
This solution can be used not only for estimating the accuracy of the present design method of fillet welds but also for establishing a new design method.
The exact solution of stress distribution in fillet welds
The exact solution of stress distribution in fillet welds under the action of bending moment M is presented in this paper.
The proposed approach is demonstrated in complex gas metal-arc (GMA) fillet welding of low-alloy steel, for which various sets of welding variables are computed to achieve a specified weld geometry.
Heat Transfer and Fluid Flow during Gas-Metal-Arc Fillet Welding for Various Joint Configurations and Welding Positions
Gas-metal-arc (GMA) fillet welding is one of the most commonly used welding processes in the industry.
A welded slip joint is fabricated by inserting the straight end of a pipe into the bell end of an adjoining pipe and circumferential fillet welding.
This electrode is intended for flat position welding of grooves and fillets and horizontal fillet welding with extremely high deposition rates.
This bond breaker requirement also applies to sealant fillet joint.