奥贝球墨铸铁，循环经济的绿色设计选择

Q3 Engineering

SAE Technical Papers Pub Date : 2023-11-10 DOI:10.4271/2023-28-0134

Dinkar Nalawade, Pramaan Arcot, Rahul Khajure

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引用次数: 0

摘要

<div class="section abstract"><div class="htmlview段落">在目前的情况下，制造较重的产品会产生巨大的废物，产生更多的CO<sub>2</sub>排放，并对环境产生负面影响。客户不仅要支付更高的产品成本，还要支付更高的运营成本。这反过来又要求更多的回收利用。先进的高强度材料是对强度、刚度、耐久性要求更高的应用的关键解决方案。而像铝和镁这样的低密度材料不是可持续的选择。随着越来越多的电池电> > > > > >与传统的球墨铸铁、铝合金甚至一些钢锻件相比，奥贝球铁(ADI)具有优越的机械性能。通常，ADI用于高磨损应用，而本文将展示ADI在结构应用中的潜力。</div><div class="htmlview段落"> div class="htmlview段落">为了展示ADI在"轻量化设计"方面的潜力，我们选择了一个“前弹簧锚地”的例子作为概念验证。采用有限元法对重新设计的构件进行分析，验证其影响。该部件的重量减轻了40%，这大大有利于商用车的能源效率。成本。总体而言，论文还将展示ADI材料对“可持续设计”、“循环经济”概念的贡献，以实现更绿色的未来。</div> /div>

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Austempered Ductile Iron, Green Design Alternative for Circular Economy

In the current scenario, manufacturing of heavier products generates colossal waste, generates more CO₂ emission, and negatively affects the environment. Customers not only pay higher product costs but also higher operational costs. This in turn demands the need for more recycling. Advanced high strength materials are a key solution to applications demanding higher strength, stiffness, durability & wear requirement, whereas low density materials like aluminium and magnesium won’t be a sustainable choice. With more and more battery electric & fuel cell vehicles, “light weighting” is a key priority.

Austempered Ductile Iron (ADI) has a great advantage of superior mechanical properties compared to conventional ductile iron, aluminium alloys and even some steel forgings. Typically, ADI is used for high wear applications, whereas this paper will demonstrate the potential of using ADI for Structural applications.

To display ADI’s potential on “light weight design”, an example of ‘Front Spring Anchorage’ is selected as a proof-of-concept. Analysis is carried out using Finite Element Method (FEM) on a redesigned component to validate its impact. Up to 40% reduction in weight is achieved on the component which greatly benefits commercial vehicles in terms of energy efficiency & cost. Overall, the paper will also exhibit ADI material’s contribution to concept of “sustainable design”, “circular economy” for a greener future.

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来源期刊

SAE Technical Papers Engineering-Industrial and Manufacturing Engineering

CiteScore

1.00

自引率

0.00%

发文量

1487

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