Mechanical

CDR Sample for Mechanical Engineers

Professional CDR sample for Mechanical Engineers written as per the Engineers Australia guidelines for the Migration Skills Assessment.
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Last updated 2/2019
CDR Sample

What you’ll get

Continuing Professional Development
The sample of CPD clarifies the Engineering Knowledge of the applicant.
Three Career Episodes
Career Episode gives a brief explanation of your engineering education, job experience and any training related to engineering.
Summary Statement
Summary statement gives the detail explanation of all the competency element and talks about the competencies one holds that is suited to the requirements laid down by EA.
Resume Sample
The resume includes a full summary of the applicants engineering education, work experience and the activities of the author.
Mechanical Engineer
A$ 49
Continuing Professional Development
Three Career Episodes
Summary Statement
Resume Sample

CDR Sample for Mechanical Engineers

Mechanical engineers design power-producing machines, such as electric generators, internal combustion engines, and steam and gas turbines, as well as power-using machines, such as refrigeration and air-conditioning systems. Mechanical engineers design other machines inside buildings, such as elevators and escalators. With technological advancement, there is an increment in the requirement of Mechanical Engineers in Australia. Now, engineers all around the world are eager for Australia Immigration and seeking a space to make an outstanding career availing jobs in Australia. For this, you can prepare a CDR Sample for Mechanical Engineer according to the Migration Skills booklet prepared by Engineers Australia. The engineers with four years of Bachelor’s degree in Mechanical Engineering can apply for the post of Mechanical Engineers.

CDR sample for Mechanical Engineers includes all the required reports such as Curriculum Vitae (CV), Continuing Professional Development (CPD), three Career Episodes (CE), and Summary Statement. The content of the CDR Report Samples is given below:

Curriculum Vitae (CV): Resume on the basis of a professional template.

Continuing Professional Development (CPD): The sample of CPD clarifies the Engineering Knowledge of the applicant – 333 words.

Mechanical Engineer Career Episode Sample 1: “Experimental Analysis of Glass Fiber in Concrete” – 2057 words

Mechanical Engineer Career Episode Sample 2: “Design of Residential Building Using Green Building Concept” – 2325 words

Mechanical Engineer Career Episode Sample 3: “Designing a Vibrating Table” – 2331 words

Mechanical Engineer Summary Statement Sample: Detail explanation of all the competency element – 1732 words.

Mechanical Engineer Career Episode Sample 1​

Project Name: Design of a Sugarcane Juice Vending Workstation

In the first Career Episode, the author explains the project he carried out for the fulfillment of the degree of Mechanical engineering. The project was titled as “Design of a Sugarcane Juice Vending Workstation” and author roles were:
 The author studied the different extraction systems to carry the component construction to replace the expensive mechanical devices.
 The author prepared the basic design and constructed the sugarcane juice extractor device.
 The author calculated the different parameters to construct the components and assembled them.
 The author carried out the testing of the machine by determining the moisture content in each cane stalk.
 The author calculated the extraction efficiency by using the Hugot and Jenkins equations.

Problem & Solutions

Some of the major problems that were encountered by the author during the “Design of a Sugarcane Juice Vending Workstation” along with their solutions are defined below:-

  1. Problem 1 career episode 1 and its Solution

    While Author was working with the extractor device, the author found that the perforated grating sheet in the cylinder became blunter with the increase of the frequent operation that decreased the operation of the juice extractor.  As the maceration of the cane stalk into fine chips decreased, the extraction efficiency of the juice extractor device also decreased.

    To solve the problem, the author noticed that the perforated sheet must be changed when the blunt starts to appear as it created a major hindrance in the overall function of the extractor device. The use of a designed rasp instead of the perforated grating speed also enhanced the grating and extraction efficiency of the extractor. Thus both the method of using a designed rasp surface and the monitory update method was applied to change the perforated sheet.

  1. Problem 2 career episode 1 and its Solution

    Another issue that the author found during the implementation of the designed model was that the bearings on the drive shift created huge friction after a certain interval time of operation. The author opted for the use of lubricant products that caused all the components, along with bearings, to work smoothly within a certain time.

Mechanical Engineer Career Episode Sample 2

Project Name: Process Optimization of Welding On The Basis Of Friction Stir Process 

In the Second Career Episode, the author explains the project titled as “Process Optimization of Welding On The Basis Of Friction Stir Process ” and author’s roles were:
 The author carried out the review procedure of the various basic welding process and particularly the technical aspects of the friction stir welding process.
 The author prepared the activity representation block diagram of various processes and used the various approach to optimize them.
 The author scrutinized the design of the various selected geometrical tools.
 The author carried out the selection of the values of input parameters.
 The author executed the analysis procedure.

Problem & Solutions

Some of the major problems that were encountered by the author during the “Process Optimization of Welding On The Basis Of Friction Stir” along with their solutions are defined below:-

  1. Problem 1 career episode 2 and its Solution

    The Author found that the process of friction due to the rotation heated the tool and the forward movement extruded the metal around to the retreating side of the tool and thus caused the onion-like structure to be formed.

    To solve the problem, the author recommended using the constant tool pitch. Through post-processing, stress concentrations could be avoided and some changes like smoothening the welded pieces to reduce the velocity of transitional tool and reduce the proportion of fed.

  1. Problem 2 career episode 2 and its Solution

    When the process started, the author noticed the collapse of the nugget during the formation of the aluminium alloy because of the misbalance between the processing zones the flaw formation was caused.

    To solve the problem of excessive material flow of aluminium alloys, the factors related to an imbalance in the material flow associated with the position of the tool to the joint line was improved. The author used the factor of adjustment to adjust the distance from the tool and control the coarsening factor of aluminium alloy.

  1. Problem 3 career episode 2 and its Solution

    During the welding process, the author logged all the characteristics of the weld and documented them. The quality of friction stir welding was inadequate. The author noticed that during cyclic loading conditions, it lacked the fatigue resistance and carried out the proper analysis of the past recorded and in conclusion, founded that there must be inclusive of the five characteristics or more to enhance the quality of the welding process.

    Henceforth, fatigue resistance was added as an additional characteristic of the friction stir welding for any operation.

Mechanical Engineer Career Episode Sample 3

Project Name: Steam Turbine Control Oil System 

In the Third Career Episode, the author explains the project titled as “Steam Turbine Control Oil System ” and author’s roles were:
 Author used the S7-416 logic controller to increase the speed of the digital processor in the control system and deliberate the value of the flow of steam.
 The author used the controller S7-314C-2DP for the protection of the steam turbine and used the disparate configuration for the protection purpose.
 The author carried out the assemblies of the parameters and analyzed and tested them for the various specification of device components
 The author used software with Magnetic Pick up (MPU) for the speed sensing and used algorithms for speed control functions.
 The author carried out the detection mechanism for the temperature at various parts with the use of temperature sensors.

Problem & Solutions

Some of the major problems that were encountered by the author during the “Steam Turbine Control Oil System” along with their solutions are defined below:

  1. Problem 1 career episode 3 and Solution

    As Author reviewed the mechanism of the turbine in the system that used low-grade lube oil, the author noticed that all the components in the system were considerably heating frequently which caused the speed of the turbine to be affected.

    With proper consultation, the author realized that the used protective device was out of order and old and as a solution to this, the entire protective device was upgraded to improve and enhance device safety. After implementing the solution, the entire steam turbine system was tested and noticed that when the temperature increased extensively, the steam turbine automatically stopped and thus other components were protected from other catastrophes.

  1. Problem 2 career episode 3 and Solution

    Another problem that the author came across was with the steam turbine’s speed because of the over-exploitation of the lube oil in the system. The speed controller in the turbine system could not overcome the over speed and thus created critical issues in the turbine system.

    To solve the issue, the author used a Magnetic Pick-Up (MPU) bracket in order to regulate the speed of the turbine and consequently the temperature and frictional force was also maintained. Followed by the calibration task for the MPU for the detection of the zero speed along with the software directly.

  1. Problem 3 career episode 3 and Solution

    Likewise, in the execution of the turbine system, the author realized that the sensor was not being able to detect the temperature correctly. The author also noticed that the steam turbine used to get automatically solved with the inconsistent readings in the sensor. Because of this, it was difficult to find out what was the actual fault in the steam turbine.

    To solve the issue author simulated the temperature and the accuracy of the reading of the temperature sensor was maintained. Furthermore, for the smooth running of the turbine system, the author took into consideration using a screw pump and DC pump to improve the overall operational procedure of the system.

Mechanical Engineer Continuing Professional Development

CPD refers to the process of tracking and documenting the skills, knowledge and experience gained both formally and informally.

The CPD writing is in a list format (title, date, duration, and venue) and includes the following details:
 Formal engineering study.
 Conferences at which you have delivered papers or attended.
 Short courses, workshops, seminars, discussion groups, technical inspections and technical meetings you have attended.
 Preparation and presentation of material for courses, conferences, seminars and symposia.
 Services to the engineering profession (volunteer work, board or committee volunteering, mentoring, etc.

Some of the presentation, seminars, workshops and trainings done by the author are mentioned below:
 Presentation on Sugarcane Juice Vending for 2 days.
 Seminar on Steam Turbine Control Oil System for 1day.
 Workshop on IC Engine Assembly and Dismantling for 2 days.
 Seminar on Friction Stir Process for 1 day.
 Workshop on 3D printing for 5 days.
 Training on ANSYS for 1 month.

Mechanical Engineer CV

The CV includes a full summary of the authors engineering education and work experience. The CV here is a complete record of the activities of the author.

Career Objective

The author possess a wide range of knowledge in the field of mechanical engineering. With the help of the knowledge and skills gained during the authors’ bachelor’s degree program, he can work for any mechanical engineering company for the prosperity of the company and personal growth.

Work experience

The author worked as a Mechanical Engineer from June 2015- August 2017 at ABC Construction Pvt. Ltd. Some of the responsibilities the author had are mentioned below:
 Assessing project requirements
 Agreeing and negotiating project budgets, timescales and specifications with clients and managers
 Developing and implementing test procedures.

Educational qualification

The author studied Bachelor in Mechanical Engineering from 2013-2017 at ABC University.

Summary Statement

A summary statement is the detail explanation sample of all the competency elements.
The summary statement consists of the Consistency Elements, a Brief summary of how the author has applied the element and the paragraph number in the career episode(s) where the element is addressed in tabular format.
Professional engineer Summary Statement is divided into three parts:

  1.  PE1 KNOWLEDGE AND SKILL BASE
     PE1.1 Comprehensive, theory-based understanding of the underpinning natural and physical sciences and the engineering fundamentals applicable to the engineering discipline.
     PE1.2 Conceptual understanding of the mathematics, numerical analysis, statistics and computer and information sciences which underpin the engineering discipline.
     PE1.3 In-depth understanding of specialist bodies of knowledge within the engineering discipline.
    PE1.4 Discernment of knowledge development and research directions within the engineering discipline.
     PE1.5 Knowledge of contextual factors impacting the engineering discipline.
     PE1.6 Understanding of the scope, principles, norms, accountabilities and bounds of contemporary engineering practice in the specific discipline.
  2. PE2 ENGINEERING APPLICATION ABILITY
    PE2.1 Application of established engineering methods to complex engineering problem solving.
     PE2.2 Fluent application of engineering techniques, tools and resources.
     PE2.3 Application of systematic engineering synthesis and design processes.
     PE2.4 Application of systematic approaches to the conduct and management of engineering projects.
  3. PE3 PROFESSIONAL AND PERSONAL ATTRIBUTES
     PE3.1 Ethical conduct and professional accountability.
     PE3.2 Effective oral and written communication in professional and lay domains.
     PE3.3 Creative innovative and proactive demeanour.
     PE3.5 Orderly management of self, and professional conduct.
     PE3.6 Effective team membership and team leadership.
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