Pik Turbo Orta Göbeğinin Alüminyum Alaşımından Üretilmesi

Uluslararası Muhendislik Arastirma ve Gelistirme Dergisi Pub Date : 2022-09-19 DOI:10.21205/deufmd.2022247214

Bahadır Uyulgan

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Abstract

The goal of this research is to make an aluminum alloy center housing for a turbocharger, which is currently built of cast iron, in order to minimize weight in the car sector. The use of aluminum alloy instead of cast iron to manufacture a turbocharger's central housing is expected to result in a 60 percent weight reduction. It was determined in the investigation that A242 aluminum alloy might be utilized in place of cast iron. The turbo mid-hub, which is comprised of A242 aluminum alloy, was then heat treated and hardness tested. The finite element approach was used to examine the temperature distribution of the part. As a result of the aging experiment, the solution temperature and duration were kept constant, and the most acceptable aging temperature and time for the turbocharger cental hausing were identified as 190°C, 234 minutes, as a consequence of the aging heat treatments done at different temperatures. The hottest spots of the turbocharger central hausing built from A242 alloy and cast iron, according to the temperature distribution study, are 153°C in the aluminum alloy section and 233°C in the cast iron component.

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这项研究的目标是为目前由铸铁制造的涡轮增压器制造铝合金中心外壳，以减少汽车领域的重量。使用铝合金代替铸铁来制造涡轮增压器的中央外壳，预计将减轻60%的重量。在调查中确定A242铝合金可以代替铸铁。涡轮中轮毂，这是由A242铝合金，然后热处理和硬度测试。采用有限元方法对零件的温度分布进行了分析。在保持固溶温度和时效时间不变的情况下，通过不同温度下的时效热处理，确定了增压器中央壳体最可接受的时效温度和时效时间为190℃，234 min。根据温度分布研究，由A242合金和铸铁制成的涡轮增压器中央外壳的最热部位是铝合金部分153°C，铸铁部分233°C。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Uluslararası Muhendislik Arastirma ve Gelistirme Dergisi

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