This research concerns, with studying the proposed of a simulation program, which is related with the process of movement and handling of construction materials on site. to reduce the handling wastes cost. This research deals with all factors affecting construction materials movement on site. Through a proposed program, weakness points of the mentioned factors can be specified and treated either with an applied program or Administrative procedures. Detailed literature survey was performed, detailed field investigation, analysis of collected data, and interviews with selected and well qualified and experienced management personal representing a wide variety of construction firms and companies. The results obtained from the mentioned actions confirmed the research hypothesis. A computer program was prepared, to simulate all construction materials movement stages affecting the movement and handling of construction materials. The proposed program, includes and perform several functions such as , simulation of construction materials management activities, evaluation of the existing status, finding out management solutions and training aspects, that helps in training engineers, possessing little experience in managing construction materials on site. To examine the capability extent of applying the proposed program at the site, the program function applied on tow construction projects and to be examined by experts. The examination was illustrated the program efficiency to reduce movement and handling costs of construction materials. The research recommended the applications of the proposed program to get its benefits and to achieve the research objectives. Further and future researches were proposed, such as expert system to evaluate and develop the performance of construction management in the field of on site materials management.
Construction materials are very important in industrial construction. The factors which affect the lost and damage ratio on were studied by classification the lost and damage in the materials. In addition the following factors : 1-Estimation and design. 2-Storege and delivery. 3-Effisincy of management. 4-Applied guard and security on materials storage. 5-Approsh of material transport. Were also studied determination of the effect ratio for every factors was tabulated in order to use by the management for control the lost and damage. Simple equations were presented to help the constructional management to find the modified ratio of lost in according to the effect factors. It was found some conclusion and recommendation which can direct the construction managements to use the suggested tables and equations to reduce the damage ratio of construction materials.
Determining building materials and their types and determining their effect on concrete properties are consistent with the technical and design variables of buildings. From this point of view, the research came to include theoretical studies and empirical tests for some materials, focusing on the aggregate as a basic material involved in the formation of concrete. The first part includes the introduction, research problem, assumptions, importance, and purpose of the research. the second part was to conduct practical experiments by designing different concrete mixtures in the mixing ratios and the type of aggregate until results were reached regarding the resistance of the concrete that was produced as a result of the difference in densities between ordinary aggregate concrete and lightweight aggregate concrete. Through that, for example, the lightweight aggregate with an age of (7) days and a mixing ratio of (1: 2: 4) gave strength to the models used (19.58) Mpa, and for the same mixing ratio and at an age of (28) days, it gave durability ( 22.83) Mpa. When the mixing ratio was changed to (1: 1.5: 3), it was (25.74) MPa and (32.34) MPa at the age of (7) days and (28) days, respectively. These results give an accurate indication that the aggregate is light in weight with similarity to the ordinary aggregate in obtaining concrete with a bearing strength within the approved specifications without guaranteeing the environmental treatments and the resulting loads