When His Name Is A Car Part

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By Leonardo Frasiero, Gian Maria Santi, Giampero Donici, Christian Leon Cardenas*, Petric Ferretti, Alfredo Livrani and Marco Neri

Received: 18 June 2021 / Revised: 13 July 2021 / Accepted: 22 July 2021 / Published: 27 July 2021

What Is A Market Adjustment On A Car?

The design of the E-segment mid-size sedan was chosen to fill a gap in the Ford brand’s market and achieve the goal of future-oriented innovation. Since the historic Falcon of the 1960s, Ford hasn’t had a flagship sports sedan in the E-segment for years. Starting from the last assumption and considering that the major car manufacturers are currently investing heavily in E-segment cars, it was necessary to design a new model, which would be called the Eagle. Is. The model proposed here should fill the gap between Ford and other companies that already produce sports cars for the electric sector and complement Ford’s proposition. The presented methodology is based on SDE, to which several design tools are applied, such as quality function implementation (QFD), benchmarking (BM) and top-flop analysis (TPA). This is followed by a market analysis to identify key competitors and their key features in terms of style and technology. The results are used to design a modern car. Based on the most advanced styling trends, the vehicle is first sketched and then developed in 2D and 3D prototyping environments. This result leads to the ability to 3D print the original model using fused deposition modeling (FDM) technology and test it in various configurations in Augmented Reality (AR). These two final applications demonstrate the potential of Industry 4.0 as an enrichment for SDE and rapid prototyping in general.

Industrial design is the most important phase of a product’s life. The design phase controls component style, cost, production time and market impact. Because of the latter, it is important to gather all possible information from customers and start a new project to develop the right concept car from scratch. Errors at this stage will lead to inefficiencies that will affect the budget. Many approaches to this problem are possible because the design phase is not simple [1]. The following paper presents a case study based on different phases of Industrial Design Structure (IDeS) with the integration of AM and AR, dividing the process into several design phases. Using IDeS, it is possible to develop an innovative industrial product [2] by deconstructing the process into stages related to style, design, optimization and production. Due to this procedure, errors are reduced, and the final product result is innovative and relatively inexpensive, as no changes need to be made after the procedure is implemented. Furthermore, the use of revolutionary technologies such as Augmented Reality (AR) [3] and Additive Manufacturing (AM) [4] show that there are low-cost solutions for virtual prototyping, which can be implemented in IDeS processes. Is. As previously reported by Donici et al. [5], using this methodology, a link is actually created between the design structure and the company organization, which divides the design process into three macro-phases: setup, development and production (Figure 1 ).

First, quality function implementation (QFD) [6, 7] is used to define customer requirements and target market segment. Second, a benchmarking analysis is performed to identify the number of requirements that will allow the product to be innovative. The presented method is an evolution of previously known methods, analyzed by Sabatier, and improved by top-flop analysis to determine the number of key characteristics of the best products on the market, namely the level will determine In order to achieve innovation in a new venture, it must be overcome. Ford styling was initially studied, particularly the Ford Falcon (1960–1968) and Ford Mondeo (1996–2019), to better understand the brand’s characteristics and key styling traits that have persisted through the decades. are The SDE method continues with sketching the digital version of the vehicle presented here to enhance the classic freehand drawing. After finding a satisfactory shape (by analyzing various suggestions of stylistic trends), the proportions and dimensions of the final sketch are reviewed and corrected by means of a two-dimensional drawing — 2D CAD — moving on to the second part of IDeS. Before, product development.

This step begins with 3D modeling of the vehicle — 3D CAD — to get the three-dimensional look of the product. Once the 3D model and all its functional and aesthetic details are complete, a realistic rendering of the product is shown before proceeding with prototyping, which is the creation of the vehicle model through 3D printing. Or it can be done virtually using Augmented Reality. Show the car in any real world. Environment of daily life. In the presented paper, the authors chose to examine these two technologies to establish a comparison that led to a more thorough study. The product development phase ends with the optimization and redesign of the vehicle according to the aerodynamic study. Applied to the automotive sector, the SDE method [9, 10] introduced the possibility of digital sketching of vehicles, thus improving the classical freehand drawing of vehicles. Once a satisfactory shape is found, both 2D and 3D models are created. After that, visualization is done using AR and AM. The product development phase ends with the optimization and redesign of the vehicle according to the aerodynamic study. The E-segment was chosen to take advantage of the brand’s lack of models of this particular type. In the car segment, which has evolved over time due to market subdivision, as stated by Tartaglia [11], the E segment identifies high-end cars, large sedans such as the Mercedes E-Class or the BMW 5 Series. does. , which are characterized by elegant, luxurious and sporty shapes at the same time. That is, the American automaker has not owned a flagship sports limousine for years, and the project aims to create a vehicle that is capable of succeeding in the market through an attractive design and strong innovation. The Ford vehicle considered to be the starting point for this modern study is the Ford Falcon. Since the number of models recommended by the Ford company is very large (starting with the small; the timeless Fiesta, Focus and C-Max; the famous Mustang; the extreme Ford GT, etc.), the car recommended here will be called the Ford. Eagle. The name was chosen because it represents one of America’s most important symbols – the eagle – an element of strength, courage and freedom. Additionally, it takes pride in showing the evolution of the historic Falcon model, not just the inspiration.

Can You Name 10 Basic Car Parts?

Electric cars are becoming increasingly popular due to the green transition that will shift transportation to a more sustainable form. In recent years, the range of electric car manufacturers has increased, and many manufacturers intend to electrify their portfolios, creating fully battery-powered vehicles in all segments. However, very few consumers have already tried an electric car, but many of them are interested in buying one of these products soon. According to the 2020 Smart Mobility Report of the Energy & Strategy Group — School of Management of Politecnico di Milano [12], approximately 2.3 million electric passenger and light vehicles were registered worldwide in 2019 (+9% compared to 2018). ie 2.5% of the total number,

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