The metalworking factories mainly produce a variety of metal products which have been widely used in different industries. The main task in a metalworking factory is to process the metal products, which involves the use of metalworking fluids (MWFs) to lubricate and cool the tools and metal pieces. However, due to its complex ingredients, there are many potential health hazards which might occur during the use of MWFs. For example, it has been reported from various literature that exposure to MWFs was highly associated with the occurrence of contact dermatitis. In order to protect people from developing occupational skin diseases in the MWFs operating environment, this study determined the permeation parameters of skin absorption for the contact of MWFs under different dermal protective measure to evaluate their protective efficiency. 　　This study focused on chemicals which are common used for additives in MWFs (especially biocide, anti-corrosion inhibitor and anti-oxidation inhibitor) that might more likely cause skin abnormality and contact dermatitis. Parameters, including chemical compositions and contact conditions (e.g., whether gloves and barrier cream were in use or not), were examined to elucidate their effects on skin absorption. In addition, the Hanson vertical diffusion cell (VDC) was performed to simulate the common situation of workers’ skin exposures. 　　From the walk-through survey in 13 metalworking factories, the symptoms of skin abnormality in metalworkers were observed. Nearly all the metalworkers used gloves for protection and none of them had the experience of using barrier cream. Nevertheless, the use of wrong types of gloves was also observed (e.g., cotton, where chemicals might be permeated easily). On the other hand, the SPME procedure coupled with GC/MS analysis for the determination of chemicals in the PBS solution was established in this study. We found that chemicals can permeate through skin via dermal exposure. The permeability, including flux and lag time, for chemicals through skin were different with various protective measures. 　　The results suggested that permeation occurred shortly after the exposure when the MWFs contacted skin directly. Besides, the permeation will be delayed for 1.5~2 hours when there was effective skin protection employed. For example, the use of rubber gloves, and nitrile glove, which is recommended by NIOSH, were found to lower the amounts permeated significantly as well as to extend the lag time for permeation. However, for mechanical safety reason, glove wearing might not be allowed for certain operations. Under those circumstances, it was observed that applying skin cream, dermatitis ointment could also protect the skin from possible exposure with the amount permeated lowered to 28~100%. In conclusion, personal skin protection is highly suggested for the workers who are associated with the operations using MWFs. The most recommended protective measure was rubber gloves, but if there are not appropriate to use gloves, skin cream was also recommended for metalworkers.