The objective of this study was to manufacture low formaldehyde emission particleboard made from recycled wood-waste chips by using isocyanate (PMDI) and phenol-formaldehyde (PF) resins for use in indoor environments. The influence of PMDI/PF ratios in particles on the formaldehyde emissions and its mechanical properties were investigated. The experimental results showed that the formaldehyde emissions decreased linearly with an increase of PMDI/PF particles ratio. Their relationship could be represented by the linear regression formula. The value of formaldehyde emissions was below 0.3 mg/L, when the weight percentage of PMDI/particles was up to 70%. The formaldehyde emissions of melamine-formaldehyde (MF) resin-impregnated paper overlaid particleboard was 17% lower than that of particleboard. Moreover, the bending strength, internal bonding strength and screw holding strength increased with an increase of PMDI/PF particles ratio. However, the thickness swelling (%) of the particleboards was decreased with an increase of PMDI/PF particles ratio. In addition, there were significant positive relationships between the ultrasonic velocity and the bending strength, internal bonding strength and screw holding strength of the particleboard, and this meant that we could evaluate the properties of the particleboard using ultrasonic velocity. The fire-resistance properties of the fire-retardant treated particleboard could pass the standard of “Grade 3 Imcombustibility” as specified by CNS 6532. The bending strength, internal bonding strength, and screw holding strength were lower than particleboard but the thickness swelling (%) was improved.