This course equips students with the skills to test and select construction materials for projects like bridges, roads, tunnels, and buildings. They will explore conventional and emerging materials, industry standards, and quality control measures.
As civil construction drives global infrastructure, sustainable practices are increasingly vital. Materials testing ensures projects use eco-friendly, durable, and energy-efficient materials while identifying recyclable options to reduce waste and conserve resources.
Course Benefits:
This course investigates the properties of construction materials, it considers the principles which underpin a range of construction projects, and looks at the associated technical documentation. On completion of the course a graduate will have the capacity to compare materials and practices for sustainability and for the optimal development of buildings and infrastructure.
The delivery methodology — live and interactive webinars with the use of state-of-the-art technologies (including remote and virtual laboratories and simulation software) — ensure you graduate with cutting-edge skills that are valued by employers around the world.
Upon completion, students should be able to:
| Unit code | Unit title | Duration |
| DCMCMT601 | Apply construction materials testing fundamentals | 2 Weeks |
| MSL924006 | Use laboratory application software | 2 Weeks |
| DCMCEP603 | Apply basic principles in civil engineering projects | 2 Weeks |
| DCSBME604 | Use basic mathematics in engineering | 6 Weeks |
| DCSCON605 | Use basic construction in engineering | 3 Weeks |
| DCSPHY606 | Use physics in engineering | 3 Weeks |
| DCSSTA607 | Use statics in engineering | 4 Weeks |
| DCSMAT608 | Use materials in engineering | 2 Weeks |
| DCSOEE609 | Operate in an engineering environment | 2 Weeks |
| DCSMTH610 | Use mathematics in engineering | 4 Weeks |
| DCMBST611 | Interpret basic soil testing | 3 Weeks |
| DCMSST612 | Use soil stabilisation techniques | 3 Weeks |
| DCSBFE613 | Use basic fluids in engineering | 3 Weeks |
| DCMCTP614 | Interpret basic concrete tests | 3 Weeks |
| DCSSOM615 | Use strength of materials in engineering | 4 Weeks |
| DCMCAT616 | Interpret basic aggregate tests | 2 Weeks |
| DCMQAM617 | Assure quality assurance in materials testing | 2 Weeks |
| DCSENV618 | Use basic environmental concepts in engineering | 2 Weeks |
| DCSBSA619 | Use basic structural analysis in engineering | 2 Weeks |
| DCMSTP620 | Determine basic steel properties, applications and tests | 3 Weeks |
| DCMPRM621 | Apply principles of rock mechanics | 3 Weeks |
| DCMTTP622 | Interpret basic timber tests | 3 Weeks |
| DCSSOL623 | Use soils in engineering | 3 Weeks |
| DCSFLE624 | Use fluids in engineering | 2 Weeks |
| DCMBBT625 | Interpret basic bitumen tests | 3 Weeks |
| DCMBAT626 | Interpret basic asphalt tests | 3 Weeks |
| DCMPTE627 | Assess pavement technologies and design criteria | 3 Weeks |
| DPEFPE619 | Apply the fundamentals of professional engineering | 4 Weeks |
| DCMAME629 | Use asset management in engineering | 3 Weeks |
| DCMIST630 | Interpret in-situ quality tests for soils, concrete and asphalt | 4 Weeks |
| DCMPCM631 | Determine pavement condition and plan maintenance | 4 Weeks |
| DCMCCM632 | Determine concrete condition and durability standards | 4 Weeks |
Graduates of the Advanced Diploma of Civil and Structural Engineering (Materials Testing) will have the capacity to:
Student applications are considered on a case-by-case basis and the following minimum entry requirements are to be strictly adhered to:
Online delivery entry requirements:
• Applicants must have at least an Australian Year 12 or Cert III trade qualification (or equivalent) in a related field;
AND
• They must have at least 2 years’ work experience in a related field
OR
• At least 4 years’ work experience in a related field – subject to acceptance of an application for Credit to Entry **
AND
• Satisfactory English language proficiency at an English pass level in an Australian Senior Certificate of Education (or equivalent); OR
A specified level of achievement in a recognised English language test such as IELTS (or equivalent) at a score of at least 5.5 (with no individual band score less than 5.0), or equivalent;
OR
• Satisfactory completion of another course offered by EIT, or by another tertiary institution, in English.
For full current fees in your country go to the drop down filter at the top of this page or visit the Fees page.
Learn more about payment methods, including payment terms & conditions and additional non-tuition fees.
This qualification is officially accredited within the Australian Qualifications Framework by the Training Accreditation Council (TAC), and EIT is approved by the Australian Skills Quality Authority (ASQA) for delivery by EIT in all Australian states. EIT delivers this program to students worldwide.
Find out more about country-specific accreditation and professional recognition.
This course is classified as Level 6 under the Australian Qualifications Framework (AQF).
The program leader for this program is Dr. Ana Evangelista.
Our courses are delivered by experienced engineers and technical experts from around the world. Many have tackled real-world engineering challenges and bring practical, applied knowledge directly into the classroom.
We draw from a global pool of instructors and lecturers across our organization. Explore our full team of expert educators on the Instructors & Lecturers page.
Please note: Not all lecturers and instructors listed on this page will teach every course. The team teaching your course will be confirmed as part of your course enrolment.
This course may use the following software:
Due to ongoing unit and course reviews, software may change from the list provided.
Learn more about the Practical Learning at EIT here.
You are expected to spend approximately 10-15 hours per week attending live webinars, learning the program material, and completing assessments. This includes attending weekly webinars that run for about 90 minutes to facilitate class discussion and allow you to ask questions. This program has a 70% attendance requirement in the live webinars in order to graduate from the program. If you are unable to attend the live webinars, you have the option of watching the recording of completed webinars and sending a summary of what you have learned from the webinar to the Learning Support Officer. The summaries go towards your attendance requirement for the program.
This program is run online on an intensive part-time basis and has been designed to fit around full-time work. It will take 24 months to complete.
We understand that sometimes work commitments and personal circumstances can get in the way of your studies, so if at any point you feel that you are struggling with the pace of the course or finding a particular module challenging, you are encouraged to contact your designated Learning Support Officer for assistance.
Application Deadline:
You must submit your application at least one week before the start date to be considered for your desired intake.
Census Dates:
A census date is the date at which an enrolment is considered to be final. Any withdrawal you make after the study period census date will incur an academic penalty (for example, a fail grade) and a financial penalty (for example, no refund of your student contribution or tuition fees). See our current census dates.
Any student has a right to appeal a decision of the Engineering Institute of Technology (EIT) or any member of the institute’s staff. EIT has a comprehensive Policy on Appeals and Grievances to assist students.
