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Strength of Materials
Erschienen in: Strength of Materials 5/2013

01.09.2013

Effect of Weld Strengthening Techniques on the Fatigue Resistance Enhancement

verfasst von: V. A. Degtyarev

Erschienen in: Strength of Materials | Ausgabe 5/2013

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Abstract

Results of experimental investigations displayed the effect of vibrotreatment, high-frequency hammering, dressing of weld reinforcement, argon-are processing, and explosive treatment on the fatigue resistance of welds of low-carbon and low-alloy steels under different thermomechanical loading conditions. Vibrotreatment and high-frequency hammering of the welded elements of metallic structures were improved.
Vorheriger Artikel Anisotropy Patterns of Fracture Resistance Characteristics Stemming from a Deformation Texture Type in Structural Alloys
Nächster Artikel Analytical Analysis of the Interfacial Stress in Damaged Reinforced Concrete Beams Strengthened by Bonded Composite Plates

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Literatur
1.
A. E. Asnis and G. A. Ivashchenko, Strength Enhancement of Welded Structures [in Russian], Naukova Dumka, Kiev (1978).
2.
I. V. Kudryavtsev and N. E. Naumchenkov, Fatigue of Welded Structures [in Russian], Mashinostroenie, Moscow (1976).
3.
V. I. Trufyakov, Fatigue of Welds [in Russian], Naukova Dumka, Kiev (1973).
4.
F. Z. Shpeer and V. I. Panov, “Vibrotreatment of welded large-size structures for reducing strain and tendency to crack origin,” Svarochn. Proizv., No. 5, 13–15 (1983).
5.
L. Thompson, A Method of Removing Stresses in Components by Vibration and a Setup for This Purpose, UK Patent No. 1259556 (1969).
6.
L. M. Lobanov, V. I. Kir’yan, V. V. Knysh, and G. I. Prokopenko, “Enhancement of the weld fatigue resistance in metallic structures with high-frequency hammering (review),” Avtomat. Svarka, No. 9, 3–11 (2006).
7.
Yu. F. Kudryavtsev, V. F. Korshun, and A. Z. Kuz’menko, “Enhancement of the cyclic life of welds with ultrasound impact treatment,” Avtomat. Svarka, No. 7, 24–28 (1989).
8.
V. A. Degtyarev, “Equipment of type DSO for fatigue testing in repeated impact and harmonic loading with various stress ratios,” Strength Mater., 14, No. 10, 1413–1416 (1982).CrossRef
9.
E. Sh. Statnikov, E. M. Shevtsov, and V. F. Kulikov, “Ultrasound impact tool for the strengthening of welds and a reduction of residual stresses,” in: New Physical Methods of Process Intensification [in Russian], Metallurgia, Moscow (1977), pp. 27–29.
10.
G. I. Prokopenko, Ya. I. Kleiman, O. V. Kozlov, et al., Device for Ultrasound Impact Treatment of Metals [in Ukrainian], Patent of Ukraine No. 47536. Valid since July 15, 2002
11.
S. V. Grishakov and A. M. Kovalev, Employment of the Barkhausen Effect for the Assessment of Stresses and Damages in Ferromagnetic Materials [in Russian], Preprint, Institute of Problems of Strength, Academy of Sciences of UkrSSR, Kiev (1988).
12.
V. A. Degtyarev, “Effect of the stress ratio on the fatigue and cyclic creep of low alloy steels. Report 2,” Strength Mater., 23, No. 2, 139–144 (1991).CrossRef
13.
GOST 3248-81. Metals Creep Test Method [in Russian], Izd. Standartov, Moscow (1982).
14.
V. A. Degtyarev, B. S. Shul’ginov, O. N. Mikhailov, and O. I. Gushcha, “Effect of cyclic creep on residual welding stresses,” Strength Mater., 20, No. 3, 301–308 (1988).CrossRef
15.
V. A. Degtyarev, B. S. Shul’ginov, and V. V. Knysh, “Deformation criterion of the weld strengthening efficiency with high-frequency hammering,” Avtomat. Svarka, No. 10, 48–51 (2009).
16.
N. G. Visilovskii, N. G. Pozhidaev, and V. M. Demin, “Problems of vibrotreatment employment instead of heat treatment,” Tyazh. Mashinostr., No. 8, 20–22 (1992).
17.
RD 50-551-85. Methodical Guidelines. Strength Test Calculations. Design-Experimental Methods of Weld Fatigue Resistance Assessment [in Russian], Izd. Standartov, Moscow (1986).
18.
Norms for Design of New and Modernized Railroad Cars of the Ministry of Transport of a 1520 mm Gauge Line (Not Self-Propelled) [in Russian], VNIIV-VNIIZhT, Moscow (1983).
19.
G. Marquis, “Failure modes and fatigue strength of improved HSS welds,” Eng. Fract. Mech., 77, No. 11, 2051–2062 (2010).CrossRef
20.
B. S. Shul’ginov, V. V. Matveev, V. A. Degtyarev, and A. I. Dudin, “Effect of microdefects in welds on the fatigue resistance of metallic structures of mining transport equipment,” in: Proc. of XI Republ. Conf. on Safety Enhancement and Life Extension of Machines and Constructions [in Russian], Theses of Reports, Naukova Dumka, Kiev (1985), pp. 167–168.
Metadaten
Titel
Effect of Weld Strengthening Techniques on the Fatigue Resistance Enhancement
verfasst von
V. A. Degtyarev
Publikationsdatum
01.09.2013
Verlag
Springer US
Erschienen in
Strength of Materials / Ausgabe 5/2013
Print ISSN: 0039-2316
Elektronische ISSN: 1573-9325
DOI
https://doi.org/10.1007/s11223-013-9495-5

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