1 / 12

NSTX

NSTX. Supported by . NSTX Centerstack Upgrade Project Meeting P. Titus March 23 2011 American Welding Society Stainless Steel Edition . Rib is ½ inch thick and top plates are 5/8.

lorin
Download Presentation

NSTX

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. NSTX Supported by NSTX Centerstack Upgrade Project Meeting P. Titus March 23 2011 American Welding Society Stainless Steel Edition

  2. Rib is ½ inch thick and top plates are 5/8 AISC Table 1.17.5 Minimum weld sizes recommended for joined plate sizes. Appears in ASME, and AWS for Carbon Steel - But it doesn’t appear in AWS-SST

  3. The nature of inquiries directed to the American Welding Society and the Structural Welding Committee has indicated that there are some requirements in the code that are either difficult to understand or not sufficiently specific, and others that appear to be overly conservative. It should be recognized that the fundamental premise of the code is to provide general stipulations applicable to any situation and to leave sufficient latitude for the exercise of engineering judgment. Another point to be recognized is that the code represents the collective experience of the committee and while some provisions may seem overly conservative, they have been based on sound engineering practice. The committee, therefore, believes that a commentary is the most suitable means to provide clarification as well as proper interpretation of many of the code requirements. 1.1 Scope This code covers welding requirements applicable to stainless steel structures and weldments subject to design stress. It shall be used in conjunction with any complementary code or specification for the design or construction of stainless steel structures and weldments. When this code is stipulated in contract documents, conformance with all provisions of the code shall be required, except for those provisions that the Engineer (see 1.4.1) or contract documents specifically modify or exempt. This code is not intended to be used for pressure vessels or pressure piping.

  4. 2.1.4 Weld Size and Length. Contract design drawings shall specify the effective weld length and, for PJP groove welds, the required weld size “(E).” For fillet welds and skewed T-joints, the following shall be provided on the contract documents.

  5. 2.3.2.2 Fillet Welds and Welds in Skewed T-Joints. Stress on the effective area of fillet welds and of welds in skewed joints shall be considered as shear stress, regardless of the direction of application. 2.3.2.3 Intermittent Fillet Welds. Intermittent fillet welds may be used to carry calculated static stress. 2.14.3.3 Intermittent groove welds are prohibited. 2.14.3.4 Intermittent fillet welds are prohibited.

  6. 2.3.2.7 Allowable Stresses Established by Testing. Mechanical properties of joints and allowable stresses may be established by testing. These tests shall be agreed between Engineer and Contractor (see Notes in Table 2.1b and Annex I, Clause I2.2).

  7. 2.3.3 Fatigue Provisions. Fatigue stress provisions for structures subject to cyclic loading shall be determined by the Engineer and be included in the contract specification. Contractual fatigue provisions shall be established by the Engineer based on: (1) Applicable research data. (2) The environmental conditions such as fluids, temperatures and atmospheres to which the structure will be subjected. (3) Conditions specific to thin-walled structures, typical for stainless steels, such as load-induced distortion and local stress concentration. Hot spot stress approach may be considered to accommodate these conditions. (4) Consideration of the stress intensification effects of the weld details. (5) Fatigue performance of the applicable type and grade of stainless steels.

  8. Structural Welding Code—Stainless Steel

  9. 1.4.1 Engineer’s Responsibilities. The Engineer shall be responsible for the development of the contract documents that govern products or structural assemblies produced under this code. The Engineer may add to, delete from, or otherwise modify, the requirements of this code to meet the particular requirements of a specific structure. If alternate requirements are proposed by other parties such as the Contractor, the Engineer may approve them based on provided documentation. Alternate requirements shall be based upon evaluation of suitability for service using past experience, experimental evidence or engineering analysis considering material type, service load effects, and environmental factors. All requirements that modify this code shall be incorporated into contract documents. The Engineer shall determine the suitability of all joint details to be used in a welded assembly.

  10. Conclusion: 1/8 inch fillets on plate thicker than ¼ inch are not acceptable structural welds Intermittent welds are unacceptable for cyclic service Unless: There is an appropriate qualification program consistent with section 1.4.1, 2.3.3, 2.3.2.7

More Related