Molded-In Threaded Inserts
from SPIROL
Brass threaded Inserts for Maximum Pull-Out and Torque Performance [See More]
- Installation Method: Molded-In
- Length: 0.3130 to 0.8130
- Base Materials: Plastic; Thermoplastics
- Hole: Straight
from PennEngineering®
Features: Blind-end protects the threads from plastic intrusion. Aluminum inserts ideal for light weight designs. Aluminum and stainless steel inserts offer lead-free alternative. [See More]
- Installation Method: Molded-In; Threaded Hole
- Units: Inch
- Base Materials: Metal
- Inch: # 2; # 4; # 6; # 8; # 10; 1/4"; 5/16"; 3/8"
from SPIROL
Series 65 Blind End and Series 63 Through Hole - Molded-In Inserts are designed for maximum pull-out and torque performance, and are often the Insert of choice for thermosets and engineered plastics with a high percentage of filler. The minor thread diameter tolerance is controlled to ensure... [See More]
- Installation Method: Thermal; Ultrasonic; Molded-In; Pressed-In; Self-tapping
- Length: 0.3800 to 0.6970
- Base Materials: Plastic
- Hole: Straight
from PennEngineering®
Blind-end protects the threads from plastic intrusion. [See More]
- Installation Method: Molded-In
- Units: Metric
- Base Materials: Metal
- Metric: M2.5
from SPIROL
Brass threaded Inserts for Maximum Pull-Out and Torque Performance [See More]
- Installation Method: Molded-In
- Length: 0.2190 to 0.5620
- Base Materials: Plastic; Thermoplastics
- Hole: Straight
from PennEngineering®
Deformed threads lock screw in place to resist vibration. Blind-end protects the threads from plastic intrusion. [See More]
- Installation Method: Molded-In
- Units: Metric
- Base Materials: Metal
- Metric: M3
from SPIROL
Series 65 Blind End and Series 63 Through Hole - Molded-In Inserts are designed for maximum pull-out and torque performance, and are often the Insert of choice for thermosets and engineered plastics with a high percentage of filler. The minor thread diameter tolerance is controlled to ensure... [See More]
- Installation Method: Thermal; Ultrasonic; Molded-In; Pressed-In; Self-tapping
- Length: 0.2560 to 0.4630
- Base Materials: Plastic
- Hole: Straight
from PennEngineering®
Pilot diameter and undercuts allow plastic to flow into grooves providing high pullout resistance. [See More]
- Installation Method: Molded-In
- Units: Metric
- Base Materials: Metal
- Metric: M10
from PennEngineering®
Uniform knurl diameter reduces the risk of sink marks. Available in varying lengths for injection molding assemblies. [See More]
- Installation Method: Molded-In
- Length: 0.3937
- Base Materials: Metal
- Units: Metric
from PennEngineering®
Features: Deformed threads create prevailing torque locking feature to prevent screw loosening due to vibration. Blind-end protects the threads from plastic intrusion. Stainless steel inserts offer lead-free alternative. [See More]
- Installation Method: Molded-In; Threaded Hole
-
Internal Thread Size: .086 - .25 mm
- Base Materials: Metal
- Units: Inch
from PennEngineering®
Features: Pilot diameter and undercuts allow plastic to flow into grooves providing high pullout resistance. Aluminum inserts ideal for light weight designs. Aluminum and stainless steel inserts offer lead-free alternative. [See More]
- Installation Method: Molded-In; Threaded Hole
- Units: Inch
- Base Materials: Metal
- Inch: # 0; # 2; # 4; # 6; # 8; # 10; 1/4"; 5/16"; 3/8"
from Tri-Star Industries, Inc.
Our MB Series threaded insert is designed to be molded into the plastic component during the molding cycle. Typically, the insert is placed on a core pin in the mold during the molding cycle. The insert is designed with aggressive knurling and undercuts to resist rotational and tensile pull loads. [See More]
- Installation Method: Molded-In
- Length: 0.1560 to 0.8900
- Base Materials: Plastic
- Units: Inch; Metric
from Stanley Engineered Fastening - Spiralock
These inserts are designed to have the plastic molded around them in the mold cavity. This process involves the placement of “core pins ” into the minor diameter of the inserts prior to molding the plastic. Once the molding operation is complete, the “core pins ” are removed,... [See More]
- Installation Method: Molded-In
- Internal Thread Size: 2-56
- Base Materials: Plastic
- External Thread Size: 0.156" Dia.
from Yardley Inserts
Hex shape provides torque and pull-out resistance [See More]
- Installation Method: Molded-In
- Internal Thread Size: M3.0 x 0.5
- Base Materials: Plastic; Thermoset, Glass-filled Plastic
- Length: 0.3130
from Tri-Star Industries, Inc.
Our MC-Series insert is designed to be molded into Plastics, Rubber & Ceramics. The insert is designed with aggressive diamond knurling that provides high resistance to tensile pull and rotational torque loads. It has a closed bottom and a controlled minor diameter which provides for accurate... [See More]
- Installation Method: Molded-In
- Length: 0.1870 to 0.9370
- Base Materials: Plastic; Rubber; Ceramic
- Units: Inch; Metric
from Tri-Star Industries, Inc.
Our business philosophy encourages success through the teamwork concept. Included in this philosophy is the relationship created between Tri-Star and you, the customer. Design Engineering starts the process of building this partnership. We take pride in our ability to design custom inserts... [See More]
- Installation Method: Thermal; Ultrasonic; Molded-In; Pressed-In
- Units: Inch; Metric
- Base Materials: Plastic; Rubber; Ceramic
- Material: Aluminum (optional feature); Brass; Steel (optional feature); Stainless Steel (optional feature)
from Tri-Star Industries, Inc.
Our MT-Series insert is designed to be molded into Plastics, Rubber & Ceramics. The insert is designed with aggressive diamond knurling that provides high resistance to tensile pull and rotational torque loads. It also has a controlled minor diameter which provides for accurate positioning on... [See More]
- Installation Method: Molded-In
- Length: 0.1560 to 0.8750
- Base Materials: Plastic; Rubber; Ceramic
- Units: Inch; Metric