Simulation Works | Electric Bus, Frame Analysis

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 Project : Electric Bus Frame Analysis
Client : Yolas, Institut Teknologi Sepuluh Nopember, Surabaya, Indonesia

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3D Works | Inflight Trolley

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Project : Inflight Trolley,Client : STTA Yogyakarta

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Profile

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HEXBOXCAD

HEXBOXCAD is a 3D modeling, 2D drafting and finite element simulations service. Begin at 2014, serving personal demand then moved more broadly to serve medium-sized industries. Tim freelancer based in Yogyakarta, Indonesia has a wide range of clients from the personal to the industry in Indonesia. As early as 2015 opened a global service for the improving ties to new customers. HEXBOXCAD continues to grow and serve the development of innovative products. The quality of the design is the focus of the team.
HEXBOXCAD adalah layanan permodelan 3D, 2D drafting dan Simulasi finite element. Dimulai dari tahun 2014 melayani personal kemudian bergerak lebih luas lagi sampai melayani industri menengah. Tim freelancer yang berbasis di Yogyakarta, Indonesia mempunyai berbagai klien dari personal sampai industri di wilayah Indonesia. Awal 2015 membuka layanan untuk global demi meningkatkan ikatan kepada pelanggan baru. HEXBOXCAD terus berkembang dan melayani pengembangan produk yang inovatif. Kualitas rancangan adalah fokus dari tim.
Office
Klembon, Bantul, Yogyakarta,
Indonesia
Postal 55714



CAD Engineering Team

Gustaf Kusuma Pradana
CAD Engineer
Interested with CAD software while at Vocational School. After graduating from the course at the Institute of Science and sTechnology AKPRIND Yogyakarta majoring in Mechanical Engineering with a concentration of manufacturing, he honed his ability to pursue and the first CAD software Autodesk Inventor, Solidworks, then ANSYS.
Mulai tertarik pada bidang software CAD saat masih SMK. Setelah lulus dari perkuliahan di Institut Sains dan Teknologi AKPRIND Yogyakarta jurusan Teknik Mesin dengan konsentrasi Manufaktur, dia menekuni dan mengasah kemampuannya pada software CAD pertama Autodesk Inventor, kemudian Solidworks, kemudian ANSYS.

Contact

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Email & Mail

Email t is a way of communicating the most we recommend. Please send your questions and orders to:  
Email :
hexboxcad@gmail.com
Mailing:
Klembon, Trirenggo, Bantul,
Yogyakarta, Indonesia
Postal : 55714



Chat

More like a chat? Please chat with our admin:

Whatsapp : +62838-6962-2445
Skype       : hexboxcad




Telephone

Feel more comfortable when talking directly? Pick up and dial in to the following numbers:

HexBoxCAD Yogyakarta :
+62 838-6962-2445 (work day GMT +07.00)

CAD Overview

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Drawing with Solidworks
source : http://i.ytimg.com/vi/hm59eSo7C40/maxresdefault.jpg

Starting around the mid 1970s, as computer aided design systems began to provide more capability than just an ability to reproduce manual drafting with electronic drafting, the cost benefit for companies to switch to CAD became apparent. The benefit of CAD systems over manual drafting are the capabilities one often takes for granted from computer systems today; automated generation of Bill of Material, auto layout in integrated circuits, interference checking, and many others. Eventually CAD provided the designer with the ability to perform engineering calculations. During this transition, calculations were still performed either by hand or by those individuals that could run computer programs. CAD was a revolutionary change in the engineering industry, where draftsmen, designers and engineering roles begin to merge. It did not eliminate departments, as much as it merged departments and empowered draftsman, designers and engineers. CAD is just another example of the pervasive effect computers were beginning to have on industry. Current computer-aided design software packages range from 2D vector-based drafting systems to 3D solid and surface modelers. Modern CAD packages can also frequently allow rotations in three dimensions, allowing viewing of a designed object from any desired angle, even from the inside looking out. Some CAD software is capable of dynamic mathematical modeling, in which case it may be marketed as CADD.
CAD is used in the design of tools and machinery and in the drafting and design of all types of buildings, from small residential types (houses) to the largest commercial and industrial structures (hospitals and factories).[7]
CAD is mainly used for detailed engineering of 3D models and/or 2D drawings of physical components, but it is also used throughout the engineering process from conceptual design and layout of products, through strength and dynamic analysis of assemblies to definition of manufacturing methods of components. It can also be used to design objects. Furthermore, many CAD applications now offer advanced rendering and animation capabilities so engineers can better visualize their product designs. 4D BIM is a type of virtual construction engineering simulation incorporating time or schedule related information for project management.
CAD has become an especially important technology within the scope of computer-aided technologies, with benefits such as lower product development costs and a greatly shortened design cycle. CAD enables designers to layout and develop work on screen, print it out and save it for future editing, saving time on their drawings.

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