Forensic engineering has helped make the world a safer place. Understanding ‘what went wrong’ and what didn’t perform to expectations is at the backbone of what drives better design, reliable operation and safer structures. It ensures cause of loss is correctly assessed and equitable results achieved in insurance claims, court cases and investigations.
Forensic engineering is the investigation of property loss and injuries related to failure in materials, components, design and structures. These can be minor incidents, such as a crankshaft breaking, or catastrophic events, such as a bridge collapse.
The results of forensic engineering investigations are presented to manufacturers, builders, insurance companies and law firms. If the involved property damage, economic loss, personal injury or death, forensic evidence may be presented before the court of law, at arbitration and other forums, along with the testimony of the investigator.
Investigations are essential for legal decision-making, in the prosecution and defence of civil and criminal claims. Cases involving financial claims rely on forensic engineering for fact-finding.
The goal of a forensic investigation is to determine the cause of a failure. This means establishing a chain of causation that led to the failure and tracing out the steps that resulted in the accident. This information can be used to improve the performance and reliability of a component.
Often, the results of a forensic investigation are presented before the courts. Failures can give rise to liability due to the property damage, personal injury or loss of life that resulted from them. As such, forensic evidence is used in the claim, prosecution and defence of a contested breach of contract, violation of health and safety claims, product liability and tort claims. Even intellectual property claims, such as for patent infringement, can rely on forensic investigation to make their case.
One of the most common applications of forensic engineering is in decoding product liability. Claimants (plaintiffs) and defendants both rely on expert testimony to establish a chain of events and apportion fault.
A few different examples of forensic engineers being called to investigate an accident are:
Forensic investigation has been a part of the resolution process in civil and criminal trials, insurance claims, contractual disputes and more. Extensive and in-depth investigation helps to identify problems, and findings empower engineers and manufacturers/builders to avoid these mistakes in the future. Here are a few ways forensic engineering helps resolve disputes and make the world safer:
Forensic investigations / Loss investigations are rarely alike. Every investigation is unique and forensic engineers must ignore the inherent ‘assumption bias’ which can hamper an investigation.
There is no exhaustive list of the types of incidents forensic engineers investigate. A forensics team may work with commercial and industrial clients, with government regulators and health and safety bodies to decipher the complex causes behind accidents.
Forensic engineering is a multidisciplinary practice that includes evidence gathering, failure analysis, simulation, accelerated life testing and statistical analysis. A forensic engineer must possess considerable knowledge in their specific field of engineering.
The role of the engineer can be divided into three distinct phases detailed below: gathering evidence, investigation analysis and reporting to the client.
A common attribute for all forensic engineers is curiosity. All forensic engineers, regardless of discipline, must share a love of solving problems. There must be an urge to understand how things work and what led to the occurrence of the incident.
A forensic engineer is typically a qualified mechanical, electrical, civil, chemical, environmental or materials engineer. Most have specialization(s) in fields such as chemical or structural, or in industries such as oil and gas or consumer appliances. This can come from working in the field or through the completion of advanced degrees. Of course, the greatest asset of any forensic engineer is experience.
Another essential attribute for any engineer is reporting. Being able to explain – simply and technically – your and your team’s findings is key to a successful investigation.
