Abstract
The construction industry is suffering, in part, from a lack of training programs offered to the construction workforce. Unfortunately, most construction training and education research focuses on university student education. Integrating education science theory into construction workforce training has the potential to improve industry training but there is a dearth of studies that present details of this integration process. To address this gap, a training framework was developed to educate material stakeholders on material properties, selection, and installation. This framework is based on andragogical and Universal Design for Learning (UDL) principles. An assessment method evaluates training agendas to improve upon instructional design before training implementation. This method assesses the proposed training framework by enumerating the occurrences of Bloom’s Taxonomy verbs to determine how closely the proposed training’s goals and objectives followed Bloom’s guidelines. This study culminates by establishing linkages from educational theory to proposed training modules. The module template is presented in a goals and objectives format so that organizations can best implement and test this training framework.
Highlights
Construction plays a major role in the global economic development (Hosseinian and Jabbarani 2012)
The framework is summarized by categorizing the modules into lesson segments involving construction material information, project execution functions as they relate to the construction materials, and pre-construction activities so that the main points of the overall framework can be extracted, and ease of adoption can be achieved
This study created a framework for training construction industry workers on the subject of construction materials
Summary
Construction plays a major role in the global economic development (Hosseinian and Jabbarani 2012). Construction defects often result from the absence of an installation methodology or lack of knowledge of proper installation (Forcada et al, 2014) leading to a material or system failure even if the proper material is selected (Tatum 2011). Lack of technical knowledge, training, and experienced skilled labor and supervision, along with procedure non-compliance, have been identified as causative factors for 13% of total construction field rework costs in the U.S (Karimi et al, 2018). Existing training resources include project personnel, professional publications, textbooks, and technical information from equipment manufacturers and materials suppliers; there is little to no standardization in construction industry training and it is not uniformly available in the broader industry landscape outside of traditional education (Tatum 2018). Studies that come close to addressing this gap, such as the framework design example by Joo Hyoung
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