(Last updated: 23rd November 2021)
If you want to move to Australia as an Industrial Engineer then you must get approval from Engineers Australia. This authority is linked to assessing the aspirants particularly through their skills-based knowledge and speaking skills. This is done to ensure if you are good enough to meet their standards. As an Industrial Engineer who wants to work in Australia, it is important for you to apply to Engineers Australia through your CDR. In such a case going through the CDR Report Sample for Industrial Engineer will truly help you establish the most professional CDR report for applying to Engineers Australia.
CDR report is for your skills assessment with EA. This report will determine whether or not your experience and skills are up to the set standards. If you are good enough then most likely you will get the skilled migration that will permit you to work in Australia. In most cases, the CDR report for Industrial Engineers is for those individuals who are skilled to work on the set standards of Engineers Australia.
Being an Industrial Engineer is not an easy job. It gives you a huge responsibility. An Industrial Engineer has to review the production schedule, understand different manufacturing methods and services, detect flows in processes. These individuals are always working with customers and the management; therefore, it is crucial for them to have a professional CDR Report Australia.
The main specializations typically covered by Industrial engineering are as follows:
- Product system
- Industrial design
- Supply chains and logistics
- Health and safety engineering
The main authority that assesses the Industrial Engineer CDR Report is Engineers Australia (EA). This Australian authority will thoroughly assess your CDR writing as well as the CDR report for Industrial Engineer to decide whether you are suitable enough to meet their standards. You can go through the CDR Report Sample for Industrial Engineer as it will help give you an idea of the type of CDR Report you should be writing. You will also be able to check the standard of the CDR writing and if you match that standard or not.
It is important to make sure that your CDR report for Industrial Engineer is up to the mark and that the reader gets a professional first impression by reading your CDR report Australia. It helps demonstrate your skills and qualification in the most professional way.
Industrial Engineer CDR Report sample
There is a major requirement of Industrial Engineers in Australia which leads to the greater interest of Industrial Engineers who want to move to Australia for a better job. But it is only possible if you get approved by Engineers Australia through your CDR. CDR Report Australia is providing Sample for Industrial Engineer should include all the authentic information related to one’s skills and qualifications. The more accurate your CDR is the more chances you get of approval from Engineers Australia.
How BestCDRWriting.com can assist with Industrial Engineer CDR Report?
When it comes to writing a CDR report for Engineers Australia there are three imprints elements that you must keep into consideration:
• Career Episode
• Continuous Professional Development
• Summary statement
Industrial Engineer Career Episode:
The Career Episode is highly crucial when it comes to showcasing an individual’s skills and qualifications. It also helps determine the market worth of an individual or if he/she is capable or worthy to be selected as an Industrial Engineer in Australia. Having a professional Career Episode shows the value of skills acquired by that particular individual. It is crucial to mention your experience or any internship that you have done regarding your work.
Continuous professional development
This part of CDR called the CPD includes all the professional experience or study that you have done over the years. It involves:
• Subject of the professional training
• Date of professional training
• Duration of professional training
• Location of professional training
In Summary Statement the individual is required to mention all the information in the form of numbers, authentic description indicating certain units and numbers, and how they were obtained. The individual will also write about the Career Episode.
Useful tips on writing a successful CDR
It is crucial to write a professional CDR report Australia if you want to get that approval from Engineers Australia that you have been dreaming about. Your CDR Report sample for Industrial engineers should include all the information related to your skills and qualification.
• The CDR report should be professional enlightening to provide authentic information related to your communication skills
• The summary statement should be a factual analysis of all the details mentioned in CDR
• Make sure to mention the achievements as well as the responsibilities
What are the reasons behind the rejection of a CDR?
Writing a professional CDR report is not everyone’s cup of tea. You will often come across individuals that mention extra details, numbers, and tables just to make sure they don’t get rejected. This shows your weakness that you don’t trust yourself. A CDR report must:
• Be precise, to the point, contain all the authentic information related to one’s skills, achievements, qualification
• Be original and not contain any copied material
• Be unique
• Have a word limit of 1000-2500 words
Job duties of Industrial Engineer
• Developing processes and technological upgrades
• Establishing a control system to reduce the production issues and costs
• Review production schedules, related information.
• Keep a check and balance of wasted material
• Do cost estimation
• Assign the recommended work and jobs
• Analysis of different samples of work
The online application process for CDR Engineers Australia
Once you are done with the CDR report you can go through the MSA Online Application User’s Guide to ensure that your CDR is up-to-the standard and contains all the required information.
For online application, you will require an Engineers Australia ID number. For registration you need myPortal. Once you are logged in, pay the required application fee and fill in the details mentioned in the “Migration Skills assessment” section. Now upload the required documents. After completing all the steps your application will be successfully submitted that you can confirm through the mail.
The sample CDR report for Industrial Engineer (Career Episode 1) is shown below.
Note: Don’t copy anything from below as it is already submitted to Engineers Australia
Career Episode 1
No Touch Hand Sanitization Station
Project: No Touch Hand Sanitization Station
Duration: February 2020 – November 2020
Location: Sydney, Australia
Organization: ID Squared
Position: Industrial Engineer
[CE 1.2] Nature of Overall Engineering Project
ID Squared started operations in 2018. It is a boutique industrial design consultancy based in Alexandria, an inner-city suburb of Sydney. The main focus is supporting the client’s vision with their product development requirements. They are involved in developing products from concept through to production, including conceptual thinking, brand integration, product graphics, and prototyping. With close ties to local and overseas industries, they help facilitate production by offering manufacturing support and product supply.
[CE 1.3] Objectives of Project
The objective of the project was to develop a hand sanitization station with a no-touch solution. I worked on the “Sense Dispense No Touch Mate” which was an integrated dispensing unit mainly designed specifically for a big company based in Wollongong. The client manufactured only drinks and with COVID-19, they included an alcohol production line and wanted to use the same bottle. I along with the team was contracted to develop a hand sanitization station from scratch until production. So, I developed a device that would pump the liquid/alcohol from that bottle. With that, the company would not have to develop and spend money on a new bottle production line.
[CE 1.4] Nature of Particular Work Area
The work nature was designing and developing a hand sanitization station in which industrial engineering skills along with mechatronics and electrical engineering skills were required to use for obtaining the successful results.
[CE 1.5] Hierarchy
[CE 1.6] Duties:
- I did conceptual development of products which included brainstorming and concept sketching.
- I did 3D modeling of designs using Pro Engineering software.
- I did 3D printing of prototype parts using UP BOX/Tier time printing.
- I created technical drawings for manufacturing, bill of material, and developed technical presentations for clients.
- I assembled sheet metal and plastic components, fasteners, applied stickers, after manufacturing to deliver the final product for clients.
- Personal Engineering Activity
[CE 1.7] Technical Details of Work
One of my main responsibilities in the project was to design, develop and specify the components of the Hand sanitization station, 3D modeling of designs using Pro/Engineering software, creating technical drawings for manufacturing, bill of materials, file management, and rendering for client’s presentation. I worked on managing the production of 1000 nozzles in 4 3D printers. I controlled all variables during the process, such as choose the appropriate material, extrusion temperature of the material, extrusion angle, variables in the support of the platform where the nozzle was printed. Also, after design, I carried out development and modeling which further led to the client’s approval and receiving all components from suppliers. Also, I was responsible to assemble components to deliver to the customer. The dispenser dimensions are shown below:
[CE 1.8] How you applied your Engineering Knowledge and Skills
Initially, in this project, I along with the team had to manufacture 1000 hand sanitizer stations in a short period. When I started manufacturing the nozzles on 3D printers, there were only 2 printers and I was able to print only 3 spray nozzles on each printer, in 2 hours, and the total time for 1000 nozzles would be 333 hours.
More than that quantity, problems were occurring during the manufacturing process, such as warping and detachment of parts. It was not being compatible with what would have to manufacture. After doing a lot of research, tests, errors, and successes, I was able to discover the best configuration (temperature of the printing nozzle, temperature of the glass plate platform where the nozzle was printed, the internal temperature of the printing box, ideal support material for the glass plate platform, printing speed, etc.). After finding the best configuration, I was able to manufacture 6 nozzles at the same time, in 2.5 hours as shown in the image below.
As soon as the total time to manufacture 1000 pieces was reduced to 208 hours, it overall resulted in reducing and saving 125 hours of work. With that estimate, I was able to invest in 2 more printers where I was able to produce all parts on time.
[CE 1.9] Tasks Delegated and How accomplishing them
The nozzles were printed on a platform. I used to print on a Perfboard that had little durability and was more expensive. With the need to print 1000 spray nozzles, I had to discover another type of support. A much cheaper option and with great durability was the glass platform, however unlike before, it was not necessary to apply any material, now it was essential. The challenge was to find which material and which thickness. After many tests, I found the solution, which was to dissolve a specific amount of the same material as the printer’s filament, ABS, in acetone. This way I created a new procedure to print parts on a glass platform.
I assembled sheet metal and plastic components, fasteners, applied stickers, after manufacturing to deliver the final product for clients. Also, I cleaned the support materials of the 3D-printed parts. To do that job I had a small workshop as shown in the image below with a set of tools including, masks, gloves, screwdrivers, knives, pliers, sandpapers, scissors, drill, and other tools, and for that, I had to follow some safety procedures and rules to handle it.
[CE 1.11] (i) Problem: I along with the team built the whole concept, including the housing, spray nozzle, internal structure, fasteners, pump, and electronic components. However, there were some limitations which were needed to address in it.
Solution: The spray nozzle that squirts alcohol was manufactured by our company through 3D printers (TierTime / UpBox). The images are shown below:
One of my responsibilities was to manage the production of the nozzles. I controlled all variables during the process, such as choose the appropriate material, extrusion temperature of the material, extrusion angle, variables in the support of the platform where the nozzle was printed, because problems such as detachment and warping could occur, and also solving problems encountered during this process together with a Mechatronic Engineer, and Industrial Designer manager.
(ii) Problem: I also encountered some challenges during the production process and researched solutions to complex problems like spray nozzle leak problems and also chemical reactions between different materials resulting in changes in the color of the components and also the color of the alcohol as shown in the image below.
Solution: Due to the 3D printer’s printing process being in layers, when squirting, alcohol was being expelled between the layers of the nozzle. I had a long walk to find a solution, including many tests, as well as reducing or increasing the thickness of the nozzle wall, changing the material, adapted the design, etc. The solution which I found was to create an ideal design that would adapt to 3D printer variables and also dipping the nozzle in acetone for 20 seconds, that way the ABS material would dissolve to the point that it would create a barrier preventing the alcohol from finding places of escape.
[CE 1.12] How you worked with other team members
The discussions were made with the project director regarding various aspects and designing along with analysis was made for obtaining the specified results. The timely work results were achieved with thorough discussions made with the team members throughout the project tenure.
Strong knowledge about the entire process of 3D printing, application of materials, etc. As English is not my first language and I am in the process of building my language skills, it was a challenge for me to understand and learn new skills at the same time. This experience has raised my level of English considerably. Now I feel more confident to talk in English with people about general and also technical matters. I learned more practically about different manufacturing processes such as sheet metal parts, injection molding, die casting, and CNC. Knowledge about rendering and raster images, graphic design, and digital art to create high-quality images. I learned more closely about the entire manufacturing process for industrial projects
In Brazil, I used to work in the automotive area using Unigraphics software for engineering, design, and manufacturing analysis as CAD/CAE tools. In this new company, I had to learn a new integrated 3D CAD/CAE associative solid modeling software, which name is PRO/E (Pro/Engineer). I learned High-quality rendering using KeyShot software to generate photorealistic images. I never had contact with 3D printing technology before. In this job, I learned how to prototyping 3D model parts in 3D printers using the brand TierTime and some models like UP300, UPBOX Plus, and UP mini.
I learned how to use Adobe Photoshop which was software extensively used for raster image editing, graphic design, and digital art to create high-quality images for client’s documents. While accomplishing the technical results, there was a significant boost made in my Industrial Engineering skills.
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