Subscribe to the gold package and get unlimited access to Shamra Academy
Register a new userStudying Effect of Addition Different Reinforced Particles by Stir Casting Technique on Some Mechanical Properties of AL6063 Alloy
دراسة تأثير إضافة دقائق التدعيم المختلفة بطريقة السباكة بالتحريك على بعض الخواص الميكانيكية لسبيكة الألمنيوم 6063
888
0 123
0
(
0
)
Authors
معتز الحصريه( باحث )
Created by
Shamra Editor
Ask ChatGPT about the research
نتيجة للتطور الصناعي الكبير الذي شيده العالم في كافة المجالات، سعى العلماء و الباحثون الى تصنيع مواد جديدة تمتلك خواص هندسية متميزة بتكلفة اقتصادية منخفضة بما يتناسب مع الاستخدامات و التطبيقات الصناعية المتعددة لذا قمنا بهذا البحث الحالي بتحضير مواد مركبة ذات أساس معدني من سبيكة الألمنيوم مدعمة بدقائق تدعيم مختلفة حجمها من رتبة الميكرون من كربيد السيلكون و أكسيد التيتانيوم بنسب وزنية محددة بطريقة السباكة بالتحريك بهدف الحصول على ألمنيوم بخواص ميكانيكية مُحسنة.
Because of large industrial development which the world has seen in all fields. scientists and researchers aim to produce new materials that having special engineering properties with low economic cost as fit multiple industrial application and uses. So in This present article We try to prepare composite materials based on aluminum alloy (6663) and reinforcement it by different particles having size of micron of Alumina and silicon carbide particles are added in specific weight parentage by stir casting technique to obtain Aluminum Which having the improving mechanical properties
References used
Clyne T.W, 2001, Metal Matrix Composites: Matrices and Processing. Encyclopaedia of Materials Science and Technology, Cambridge,140p
KAINER ,K 2006-Basics of Metal Matrix Composites. WILEYVCH Verlag GmbH Co KGaA Weinheim, third Edition, THE UNITED STATES OF AMERICA, 54p
SURAPPA, M 2003- Aluminium matrix composites: Challenges and opportunities. Vol. 28, Parts 1 & 2, Printed in S¯adhan¯a, First Edition, India, 319–334 p
rate research
Read More
In this research the effect of Nickel addition by various
percentages on the mechanical properties of
Aluminum-Copper alloy was studied. After
adding Nickel the alloys was artificially aged for different
times, and the effect of Nickel on
the re
sponse of alloy to precipitation hardening was studied.
Where the effect of Nickel on the microscope structure was
studied, and on the mechanical properties as hardness, tensile
strength, yield strength and elongation. The results showed that
the increase of Nickel improve this properties, where the highest
values were obtained when the Nickel's percentage was 5% Wt.
In this research, specimens of aluminum alloy 6061 were
received, and chemical composition was investigated. After
that solution heat treatment was applied on it at 530°C, a
section of these specimens was quenched in water and anther
quenched in
oil, and two sections were aged at 160°C for
times (1,3,5 h), and thus obtained six samples differ in
condition of heat treatment in addition to as received
specimen.
In this research we are Studying the improvement of the thermal
conductivity of The 6063 aluminum alloys by Alloy elements
Adding such as (Boron & Titanium) .
In this Study we used (6063) aluminum alloy as a base metal
because it using of the fab
rication of Central Processing Unit(CPU)
heat sinks . First, we brought casting mold. We melted Aluminum
after weighting it ,and we adding Alloy elements (Boron &
Titanium), we selected the temperatures of the furnace at 1000 ℃
,for period 60 minute.
Aluminum Alloy 6063 is used widely in extrusion industry for
building and automobile applications. Aluminum billet is
manufactured usually by vertical continuous casting technique and direct water cooling. 5 different casting temperatures 660, 680,
700, 720, 740Cº, besides 5 different casting speeds 100, 112, 125, 138, 150 mm/min to control cool water feeding are chosen. It has noticed that the increase of casting temperature and decreasing of casting speed has a good effect on improving billet quality which contribute later on improving the hardness and mechanical properties of extruded aluminum profiles.
This research includes an experimental study for the manufacture of
a composite material based on polymer (unsaturated polyester),
reinforced with random fiberglass at different weight fractions. By
suite, it has been studied some mechanical prope
rties of the models
manufactured, to determine the effect of glass fiber content on the
tensile strength, hardness and impact resistance. This study has
shown that the best results were for samples reinforced by 40%
fiberglass, where the tensile strength increased about 70%, hardness
up to 30%, and impact resistance about 43%. It will be observed
that the mechanical properties decrease clearly at 60% of weight
fraction of fiberglass. This fact can be related to the quantity of
unsaturated polyester become inadequate for recharge of the fibers,
which leads to weakness in the forces bonding in composite
materials.
Log in to be able to interact and post comments
comments
Fetching comments
Sign in to be able to follow your search criteria
