For years the pharmaceutical industry has relied heavily upon the American. Welding Society’s AWS D weld dis- coloration chart1 to gage the acceptability. AWS D () SS Discoloration – Free download as PDF File .pdf), Text File .txt) or read online for free. AWS D – Download as PDF File .pdf), Text File .txt) or view presentation slides online.
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The initial purpose of internal tube purging with inert gas usually argon was the prevention of surface oxidation on the internal diameter of the tubing surrounding the weld Heat Affected Zone.
However, given the dangers associated with the use of hydrogen, it asw hard to recommend it c18.2 a critical need exists. If another configuration is to be welded, the entire experiment must be repeated. Since the internal pressure at the weld-site is dependent upon the purge gas delivery pressure, the distance from the entry measurement point and the weld, and the gas venting rate, a closed loop pressure controller is required, such that a specific, low value pressure can be maintained.
However, this value will only be correct for the specific assembly tested. Orbital Welding Internal Pressure Control.
Since the pressures are quite low, on the order of 0. The prepurge time is an empirically derived value dependent on many factors including tube size, gas flow rate, exit orifice size, number, sizes and locations of dead-legs or other components that can trap atmosphere, and thus take more time to purge.
The only remaining hurdle awe to obtain the corresponding inlet pressure for the known weld pressure, and fortunately, the EXEL SG-1 also provides the capability of measuring the inlet and weld pressures simultaneously.
Purging for Improved Weld Profile | Arc Machines, Inc.
However, gauging the internal pressure such that the weld ID profile is acceptably flat is a more difficult task. SEMI Standard F78 includes a chart with minimum and maximum purge pressures and flow rates for various tube sizes and wall thicknesses. The input gas is controlled awws for pressure and flow, using a variable orifice iris controlled s18.2 a microprocessor in a closed loop system. However, in recent years, this focus on smooth, clean, particle-free internal weld requirement has migrated from the ass industry to the biopharmaceutical industry, and on to the food equipment industry.
It is conventional wisdom that the semiconductor industry was, and remains, the primary driver for the continuous improvement of orbital autogenous weld profiles and internal cleanliness for process gas delivery tubing. One way to establish the inlet pressure is to repeat the empirical testing with the inlet pressure as the controlled variable.
In order for all color to be eliminated, oxygen levels must depending on the material fall below approximately 20 ppm.
The dd18.2 weld pressure is input to the device, and it correctly offsets the pressure for the tubing configuration as tested. Welding Journal, July He is a registered professional California Electrical Engineer. Dennis Cobb has spent more than 25 years both designing and managing the design of semiconductor capital equipment. In addition, most standard gas pressure regulators are not nearly accurate enough to deliver the exacting performance required. Purging for suitable weld color is relatively simple.
Purging for Improved Weld Profile
The combination of flow rate and prepurge time determines how much oxygen is still present, and thus, the amount of weld color caused by oxidation. Since the pressures are given as a range, they serve as a useful starting point for the empirical determination of the best pressure for the ideal weld profile.
Once that is determined, the next problem is to correlate the required pressure at the weld with the measured pressure at the delivery inlet. Purging for Improved Weld Profile. Figure 1 – AWS D Many methods have been devised to deliver the purge gas to the weld site, but few methods exist to control the internal gas pressure, thus the internal weld profile.
In the interest of exercising control over the weld profile, the ID purge is introduced with a certain level of pressure, and in order to maintain consistency and repeatability that pressure must be consistent throughout the weld, and from weld to weld.
In addition, measuring the d18.2 some distance from the weld location due to pressured drop will not provide an accurate method of determining the pressure at the weld zone.
This level of measurement and accuracy permits the EXEL SG-1 to repeatedly maintain the exact internal pressure required for a perfect weld.
The unit then utilizes this offset for all welds performed with this same configuration. Experimentation is required to establish the ideal pressure for a given tube size, wall thickness and material. Most users are satisfied with the results obtained with pure argon as a purging medium; although a few organizations like to add a small percentage of hydrogen to produce a reducing environment.
This variable orifice is especially important because as the joint is welded shut, the effective purge gas exit area is reduced, so as the joint is sealed the SG-1 is making real-time adjustments to as maintain the required pressure. This experimentation requires several trial pressures, with a weld coupon created for each d1.2 condition, until acceptable results are obtained; a time consuming and costly activity.
The internal pressure at the weld location, typically arrived at empirically, is influenced by the gas flow rate and the size of the exit orifice.