تضعیف امواج آکوستیک در Al 7075-T6 و St 304
Authors
Abstract:
Propagation and dispersion of acoustic waves is one of the important phenomena in physics. Acoustic-waves are nowadays widely used in a variety of applications ranging from underwater communications, identification and specification of the internal defects of materials to extracorporeal shock wave lithotripsy. Apart from application and utilization of such phenomena, study on production and propagation of acoustic waves have a special importance. This paper is focused on the experimental and the analytical investigation of acoustic-waves loss in metallic materials. Firstly, the governing differential equations of the acoustic waves propagation are derived and solved for a damped cylindrically shaped rod. With regard to boundary and initial conditions, the equation and the curve of damped acoustic wave displacement are obtained. By using experimental modal techniques, experimental investigations on the energy loss and the extraction of damping coefficients of acoustic waves are done. The experimental information obtained from experimental tests such as Frequency Response Function, the formula and the curve of the energy loss versus frequency are extracted. Selected metallic materials for the experimental set-ups are two specimens of steel and aluminum.
similar resources
تضعیف امواج آکوستیک در al ۷۰۷۵-t۶ و st ۳۰۴
انتشار و پخش امواج آکوستیک یکی از پدیده های مهم در فیزیک می باشد. کاربردهای وسیعی چون مخابرات زیردریایی، شناسایی و تشخیص عیوب داخلی مواد توسط امواج آکوستیک تا خردسازی برون اندامی سنگ های درون اندامی به وسیله امواج شوک، نشان از اهمیت و کاربردهای وسیع چنین پدیده ای دارد. صرف نظر از کاربرد و استفاده از چنین پدیده ای، مطالعه بر روی تولید و انتشار امواج آکوستیک از اهمیت ویژه ای برخوردار است. در مقال...
full textIonic Inhibition of Environmental Fatigue Crack Growth in 7075-t6
The objective of this study is to quantify and understand the effectiveness of a hexavalent chrome replacement ion to inhibit environmentally assisted fatigue crack propagation (EFCP) in high strength aluminum alloys. Because of dynamic-cyclic stress (or strain) loading, fatigue degradation occurs at stress levels considerably lower than the tensile or yield strength; degradation is exacerbated...
full textEffect of a Minor Sr Modifier on the Microstructures and Mechanical Properties of 7075 T6 Al Alloys
The influence of a minor strontium (Sr) modifier on the microstructures and mechanical properties of 7075 Al alloys was investigated in this paper. The grain size of cast 7075 Al alloys was refined from 157 μm to 115 μm, 108 μm, and 105 μm after adding 0.05 wt. %, 0.1 wt. %, and 0.2 wt. % Sr, respectively. The extruded 7075 Al alloys was refined with different degrees of Sr modifier. The mechan...
full textبررسی رفتار خوردگی خستگی آلیاژ آلومینیم 7075-T6 در محیط آب دریا
آلیاژهای آلومینیم به دلیل داشتن نسبت استحکام به وزن بالا و مقاومت به خوردگی مناسب نسبت به فلزات دیگر، کاربردهای فراوانی را در صنایع دریایی دارند. اکثر اجزا و سازههای دریایی تحت بار گذاری سیکلی بوده و پدیده خستگی در آنها رخ میدهد. علاوه بر این، چون اجزا در یک محیط خورنده ای مثل آب دریا قرار داشته؛ لذا پدیده خوردگی هم بر این اجزا اثر گذاشته و منجر به از دست دادن کارایی مفید خود میشوند. لذا بر...
full textSurface Characterizations of Fretting Fatigue Damage in Aluminum Alloy 7075-T6 Clamped Joints: The Beneficial Role of Ni–P Coatings
This paper aims to characterize the surface damage as a consequence of fretting fatigue in aluminum alloy 7075-T6 plates in double-lap bolted joints through XRD, surface profilometry, and SEM analyses. The main focus was on the surface roughness and chemical phase composition of the damaged zone along with the identification of fretting fatigue crack initiations over the surface of the material...
full textMy Resources
Journal title
volume 11 issue 1
pages 47- 54
publication date 2011-06
By following a journal you will be notified via email when a new issue of this journal is published.
No Keywords
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023