Trident
Threadless Ball
Trident Threadless 3mm Ball Attachment
Internally Threaded Titanium Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
Trident Titanium Flat Internally Threaded Surface Bar
Trident Titanium Flat Internally Threaded Surface Bar 2mm Post
Thread - 1.2mm (For 14G)
Internally Threaded Titanium Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
Trident Titanium Threadless Cluster 2.5mm Crystal
Trident Titanium Threadless Cluster 2.5mm Crystal
Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
Titanium Internal Cluster Attachment Crystals And Opal
Titanium Internal Cluster Attachment Crystals And Opal 0.9mm Thread
Titanium Internal Cluster Attachment Crystals And Opal
Titanium Internal Cluster Attachment 0.9mm Thread Crystals And Opal
Titanium Internal Cluster Attachment Crystals And Opal
Titanium Internal Cluster Attachment Crystals And Opal 0.9mm Thread
Trident Titanium Threadless Side Facing Crystal Attachment
Trident Titanium Threadless Side Facing Crystal Attachment
Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
Trident Titanium Threadless Side Facing Opal Attachments
Trident Titanium Threadless Side Facing Opal Attachments
Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
Trident Titanium Threadless Heart Attachment
Trident Titanium Threadless Heart Attachment
Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
Trident Titanium Threadless Star Attachment
Trident Titanium Threadless Star Attachment
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
Jeweled 3 Stone Bar Attachment 16G
Trident Jewelled 3 Stone Bar Attachment 16G
Internally Threaded Titanium Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
Jeweled Bar Attachment 5 Stones 16G
Trident Jewelled Bar Attachment 5 Stones 16G
Internally Threaded Titanium Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
Trident Titanium 5 Curved Jewelled Prong Set Attachment
Trident Titanium 5 Curved Jewelled Prong Set Attachment
2.5mm / 3mm / 3.5mm / 3mm / 2.5mm
Internally Threaded Titanium Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
Trident Titanium Marquise Attachment
Trident Titanium Marquise Attachment 0.9mm Thread
Internally Threaded Titanium Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
Black Titanium Internal Circular Barbell
Trident Black Titanium Internal Circular Barbell
Internally Threaded Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
PVD (Vacuum coating), also known as thin-film deposition, is a vacuum chamber process whereby a very thin and steady layer of coating is applied to the surface of a substrate, protecting it from forces that might wear it down or decrease its efficiency.
PVD Coating isn’t adding another layer to the object that will chip or crack with time (think old paint). It’s impregnating the object.
Black titanium nitride applied via PVD coating is becoming a standard for medical tools. The coating reduces friction, provides biocompatibility for implants, is antimicrobial, and it serves as a chemical barrier for those with a sensitivity to nickel (which can often be found in the tool).
As opposed to other coatings that chip, crack, and wear down, vacuum coatings are a shining armor for your jewelry, providing a strong and thin coating for a variety of applications.
Unlike paints which other companies use and many other methods, this technique is body-friendly so it can be used safely and without a problem.
Black Titanium Internal Curved Barbell
Trident Black Titanium Internal Curved Barbell
Thread - 0.9mm (For 16G) 1.2mm (For 14G)
Internally Threaded Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
PVD (Vacuum coating), also known as thin-film deposition, is a vacuum chamber process whereby a very thin and steady layer of coating is applied to the surface of a substrate, protecting it from forces that might wear it down or decrease its efficiency.
PVD Coating isn’t adding another layer to the object that will chip or crack with time (think old paint). It’s impregnating the object.
Black titanium nitride applied via PVD coating is becoming a standard for medical tools. The coating reduces friction, provides biocompatibility for implants, is antimicrobial, and it serves as a chemical barrier for those with a sensitivity to nickel (which can often be found in the tool).
As opposed to other coatings that chip, crack, and wear down, vacuum coatings are a shining armor for your jewelry, providing a strong and thin coating for a variety of applications.
Unlike paints which other companies use and many other methods, this technique is body-friendly so it can be used safely and without a problem.
Black Internal Titanium Jeweled Navel
Trident Black Internal Titanium Jeweled Navel
Internally Threaded Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
PVD (Vacuum coating), also known as thin-film deposition, is a vacuum chamber process whereby a very thin and steady layer of coating is applied to the surface of a substrate, protecting it from forces that might wear it down or decrease its efficiency.
PVD Coating isn’t adding another layer to the object that will chip or crack with time (think old paint). It’s impregnating the object.
Black titanium nitride applied via PVD coating is becoming a standard for medical tools. The coating reduces friction, provides biocompatibility for implants, is antimicrobial, and it serves as a chemical barrier for those with a sensitivity to nickel (which can often be found in the tool).
As opposed to other coatings that chip, crack, and wear down, vacuum coatings are a shining armor for your jewelry, providing a strong and thin coating for a variety of applications.
Unlike paints which other companies use and many other methods, this technique is body-friendly so it can be used safely and without a problem.
Black Titanium Internal Prong Set Navel
Trident Black Titanium Internal Prong Set Navel 1.6 x 10mm
Internally Threaded Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
PVD (Vacuum coating), also known as thin-film deposition, is a vacuum chamber process whereby a very thin and steady layer of coating is applied to the surface of a substrate, protecting it from forces that might wear it down or decrease its efficiency.
PVD Coating isn’t adding another layer to the object that will chip or crack with time (think old paint). It’s impregnating the object.
Black titanium nitride applied via PVD coating is becoming a standard for medical tools. The coating reduces friction, provides biocompatibility for implants, is antimicrobial, and it serves as a chemical barrier for those with a sensitivity to nickel (which can often be found in the tool).
As opposed to other coatings that chip, crack, and wear down, vacuum coatings are a shining armor for your jewelry, providing a strong and thin coating for a variety of applications.
Unlike paints which other companies use and many other methods, this technique is body-friendly so it can be used safely and without a problem.
Black Titanium Internal Labret
Trident Black Titanium Internal Labret - 4mm Base
Thread - 0.9mm (For 16G) 1.2mm (For 14G)
Internally Threaded Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
PVD (Vacuum coating), also known as thin-film deposition, is a vacuum chamber process whereby a very thin and steady layer of coating is applied to the surface of a substrate, protecting it from forces that might wear it down or decrease its efficiency.
PVD Coating isn’t adding another layer to the object that will chip or crack with time (think old paint). It’s impregnating the object.
Black titanium nitride applied via PVD coating is becoming a standard for medical tools. The coating reduces friction, provides biocompatibility for implants, is antimicrobial, and it serves as a chemical barrier for those with a sensitivity to nickel (which can often be found in the tool).
As opposed to other coatings that chip, crack, and wear down, vacuum coatings are a shining armor for your jewelry, providing a strong and thin coating for a variety of applications.
Unlike paints which other companies use and many other methods, this technique is body-friendly so it can be used safely and without a problem.
Black Titanium Internal Straight Barbell
Trident Black Titanium Internal Straight Barbell
Internally Threaded Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
PVD (Vacuum coating), also known as thin-film deposition, is a vacuum chamber process whereby a very thin and steady layer of coating is applied to the surface of a substrate, protecting it from forces that might wear it down or decrease its efficiency.
PVD Coating isn’t adding another layer to the object that will chip or crack with time (think old paint). It’s impregnating the object.
Black titanium nitride applied via PVD coating is becoming a standard for medical tools. The coating reduces friction, provides biocompatibility for implants, is antimicrobial, and it serves as a chemical barrier for those with a sensitivity to nickel (which can often be found in the tool).
As opposed to other coatings that chip, crack, and wear down, vacuum coatings are a shining armor for your jewelry, providing a strong and thin coating for a variety of applications.
Unlike paints which other companies use and many other methods, this technique is body-friendly so it can be used safely and without a problem.
Black Titanium Hinge Segment Ring
Trident Black Titanium Hinge Segment Ring
Internally Threaded Titanium Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
PVD (Vacuum coating), also known as thin-film deposition, is a vacuum chamber process whereby a very thin and steady layer of coating is applied to the surface of a substrate, protecting it from forces that might wear it down or decrease its efficiency.
PVD Coating isn’t adding another layer to the object that will chip or crack with time (think old paint). It’s impregnating the object.
Black titanium nitride applied via PVD coating is becoming a standard for medical tools. The coating reduces friction, provides biocompatibility for implants, is antimicrobial, and it serves as a chemical barrier for those with a sensitivity to nickel (which can often be found in the tool).
As opposed to other coatings that chip, crack, and wear down, vacuum coatings are a shining armor for your jewelry, providing a strong and thin coating for a variety of applications.
Unlike paints which other companies use and many other methods, this technique is body-friendly so it can be used safely and without a problem
Forward Facing Hinged Jeweled Segment
Trident Forward Facing Hinged Jewelled Segment
Internally Threaded Titanium Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
14kt Gold Threadless Trio Attachment
Pin Size: 0.42mm / Length: 4mm*
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
14kt Gold Threadless Sword Attachment
14kt Gold Threadless Sword Attachment Made out of solid 14kt Gold & implant grade steel pin. Tip to tip the beautify detailed sword is 9.1mm long and 4.3mm wide.
Piece Size: Length / 9.1mm - Width / 4.3mm
Pin Size: 0.42mm / Length: 4mm*
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
14kt Gold Threadless Disk Attachment
14kt Gold Threadless Disk Attachment Made out of solid 14kt Gold & implant grade steel pin.
Piece Size: Length / 3mm - Width / 3mm
Pin Size: 0.42mm / Length: 4mm*
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
14kt Gold Threadless Moon & Opal Attachment
14kt Gold Threadless Moon & Opal Attachment Made out of solid 14kt Gold & implant grade steel pin. Jeweled with 1.5mm white fire cultured opal.
Piece Size: Length / 3.3mm - Width / 3mm
Pin Size: 0.42mm / Length: 4mm*
Trident Threadless Trio Ball
Trident Threadless Trio Ball Attachment
Ball: 2mm x 3
Titanium Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
Squared Gem Hinged Segment
Trident Squared Gem Hinged Segment
Titanium Manufactured out of Implant Grade Titanium (Ti-6AL-4V-ELI ASTM F136)
14kt Gold Threadless Jewelled Ovate Attachment
14kt Gold Threadless Jeweled Ovate Attachment Made out of solid 14kt Gold & implant grade steel pin.
Piece Size: Length / 5mm - Width / 2.6mm
Pin Size: 0.42mm / Length: 4mm*
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
14kt Gold Threadless Lightening Attachment
14kt Gold Threadless Lightening Attachment Made out of solid 14kt Gold & implant grade steel pin.
Piece Size: Length / 8.9mm - Width / 2mm
Pin Size: 0.42mm / Length: 4mm*
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
14kt Gold Threadless Pyrus Attachment
14kt Gold Threadless Pyrus Attachment Made out of solid 14kt Gold & implant grade steel pin. This pear shaped crystal is embedded in a 3 clasp prong set in14kt gold.
Piece Size: Length / 5.4mm - Width / 3mm
Pin Size: 0.42mm / Length: 4mm*
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.
14kt Gold Threadless Bijou Attachment
14kt Gold Threadless Bijou Attachment Made out of solid 14kt Gold & implant grade steel pin.
Piece Size: Length / 4.7mm - Width / 2.2mm
Pin Size: 0.45mm / Length: 4mm
Threadless Jewelry Method:
Threadless jewelry is tensioned by using the end of the attachment and bending it within the bar to hold into place. To create the tension insert the pin on the end of the attachment slightly into the bar and bend slightly. Once inserted into the bar the bend in the pin should create the tension needed to hold into place. Direction below:
- Insert the pin on the end of the attachment 1/4 - 1/3 into the bar. (Labret, barbell etc.)
- Slightly bend the insertion pin within the bar.
- Push the end into the shaft and test the fit.
Insuring the fit: Insure the attachment is held in place and is tight. Adjust as necessary, if the pin does not hold tight enough redo the steps & create more tension.