Abstract: A fiber optic connector sub-assembly includes a ferrule having a front end, a rear end, and a ferrule bore extending between the front and rear ends along a longitudinal axis. The fiber optic connector sub-assembly also includes a bonding agent disposed in the ferrule bore and having first and second ends along the longitudinal axis. The bonding agent has been melted and solidified at the first and second ends without there being an optical fiber present in the ferrule bore.

Abstract: A fiber optic connector sub-assembly includes a ferrule having a front end, a rear end, and a ferrule bore extending between the front and rear ends along a longitudinal axis. The fiber optic connector sub-assembly also includes a bonding agent disposed in the ferrule bore and having first and second ends along the longitudinal axis. The bonding agent has been melted and solidified at the first and second ends.

Abstract: A fiber optic connector sub-assembly includes a ferrule having a front end, a rear end, and a ferrule bore extending between the front and rear ends along a longitudinal axis. The fiber optic connector sub-assembly also includes a bonding agent disposed in the ferrule bore and having first and second ends along the longitudinal axis. The bonding agent has been melted and solidified at the first and second ends without there being an optical fiber present in the ferrule bore.

Abstract: A fiber optic connector sub-assembly includes a ferrule having a front end, a rear end, and a ferrule bore extending between the front and rear ends along a longitudinal axis. The ferrule bore has a first section extending inwardly from the rear end of the ferrule, a second section extending inwardly from the front end of the ferrule and having a width that is less than the first section, and a transition section located between the first and second sections. The fiber optic connector sub-assembly also includes a bonding agent disposed in at least a portion of both the transition section and the second section of the ferrule bore. At least some of the bonding agent in the second section of the ferrule bore has been melted and solidified.

Abstract: A method of making a fiber optic connector sub-assembly involves: initially disposing a bonding agent in a ferrule bore of a ferrule; heating at least a portion of the ferrule above a melting temperature of the bonding agent so that some of the bonding agent melts; and solidifying the bonding agent that has melted to form the fiber optic connector sub-assembly, all without an optical fiber being disposed within the ferrule bore.

Abstract: A method of forming an optical fiber connector comprises preloading an adhesive plug into a ferrule bore of a ferrule. The ferrule bore extends between a first face and a second face of the ferrule and includes a large diameter bore section extending inwardly from the first face, a micro-hole section extending inwardly from the second face, and a transition section located between the large diameter bore section and the micro-hole section. The adhesive plug: a) is coupled to at least the transition section during the preloading, b) comprises an adhesive composition in a stable form, and c) blocks an entrance into the micro-hole section from the transition section. The method also comprises storing the adhesive plug in the ferrule bore for at least one day without coupling the optical connector to an optical fiber.

Abstract: A method of making a fiber optic connector sub-assembly involves: initially disposing a bonding agent in a ferrule bore of a ferrule; heating at least a portion of the ferrule above a melting temperature of the bonding agent so that some of the bonding agent melts; and solidifying the bonding agent that has melted to form the fiber optic connector sub-assembly, all without an optical fiber being disposed within the ferrule bore.

Abstract: A fiber optic connector sub-assembly includes a ferrule having a front end, a rear end, and a ferrule bore extending between the front and rear ends along a longitudinal axis. The ferrule bore has a first section extending inwardly from the rear end of the ferrule, a second section extending inwardly from the front end of the ferrule and having a width that is less than the first section, and a transition section located between the first and second sections. The fiber optic connector sub-assembly also includes a bonding agent disposed in at least a portion of both the transition section and the second section of the ferrule bore. At least some of the bonding agent in the second section of the ferrule bore has been melted and solidified.

Abstract: A method of making a fiber optic connector sub-assembly involves: initially disposing a bonding agent in a ferrule bore of a ferrule; heating at least a portion of the ferrule above a melting temperature of the bonding agent so that some of the bonding agent melts; and solidifying the bonding agent that has melted to form the fiber optic connector sub-assembly, all without an optical fiber being disposed within the ferrule bore.

Abstract: A fiber optic connector sub-assembly includes a ferrule having a front end, a rear end, and a ferrule bore extending between the front and rear ends along a longitudinal axis. The fiber optic connector sub-assembly also includes a bonding agent disposed in the ferrule bore and having first and second ends along the longitudinal axis. The bonding agent has been melted and solidified at the first and second ends.

Abstract: A method of forming an optical fiber connector comprises preloading an adhesive plug into a ferrule bore of a ferrule. The ferrule bore extends between a first face and a second face of the ferrule and includes a large diameter bore section extending inwardly from the first face, a micro-hole section extending inwardly from the second face, and a transition section located between the large diameter bore section and the micro-hole section. The adhesive plug: a) is coupled to at least the transition section during the preloading, b) comprises an adhesive composition in a stable form, and c) blocks an entrance into the micro-hole section from the transition section. The method also comprises storing the adhesive plug in the ferrule bore for at least one day without coupling the optical connector to an optical fiber.

Abstract: A method of forming an optical fiber connector is provided. The optical connector includes a body having a passage with a first section extending inwardly from a first face of the body, a second section extending inwardly from a second face from the body, and a transition section located between the first and second sections. The first section of the passage has a first width and the second section of the passage has a second width that is less than the first width. The method comprises loading an adhesive composition into the passage and storing the adhesive composition for at least one day without coupling the optical connector to an optical fiber. The adhesive composition is a meltable, substantially solid material maintained the first passage section, transition section, or both the second passage section and transition section.

Abstract: A method of terminating an optical fiber involves providing a ferrule having a front end, a rear end, a ferrule bore extending between the front and rear ends, and a bonding agent disposed in at least a portion of the ferrule bore. The method also involves applying energy to heat the bonding agent. An end section of an optical fiber is inserted into the ferrule bore and through the bonding agent when the bonding agent is heated. The end section of the optical fiber includes a primary coating prior to insertion into the ferrule bore. During insertion of the end section of the optical fiber through the bonding agent, the heated bonding agent thermally removes at least a portion of the primary coating during so that the optical fiber can be secured in the ferrule bore with the bonding agent.

Abstract: A method of forming an optical fiber connector is provided. The optical connector includes a body having a passage with a first section extending inwardly from a first face of the body, a second section extending inwardly from a second face from the body, and a transition section located between the first and second sections. The first section of the passage has a first width and the second section of the passage has a second width that is less than the first width. The method comprises loading an adhesive composition into the passage and storing the adhesive composition for at least one day without coupling the optical connector to an optical fiber. The adhesive composition is a meltable, substantially solid material maintained the first passage section, transition section, or both the second passage section and transition section.

Abstract: An optical fiber connector preloaded with an adhesive is provided. The optical connector includes a body having a passage with a first section extending inwardly from a first face of the body, a second section extending inwardly from a second face from the body, and a transition section located between the first section and the second section. The first section of the passage has a first width and the second section of the passage has a second width that is less than the first width. An adhesive composition is located within the transition section of the passage and is configured to bind an optical fiber to an inner surface of the second section following melting and solidification of the adhesive composition.

Abstract: A fiber optic connector sub-assembly includes a ferrule having a front end, a rear end, and a ferrule bore extending between the front and rear ends along a longitudinal axis. The fiber optic connector sub-assembly also includes a bonding agent disposed in the ferrule bore and having first and second ends along the longitudinal axis. The bonding agent has been melted and solidified at the first and second ends.

Abstract: A fiber optic connector sub-assembly includes a ferrule having a front end, a rear end, and a ferrule bore extending between the front and rear ends along a longitudinal axis. The fiber optic connector sub-assembly also includes a bonding agent disposed in the ferrule bore and having first and second ends along the longitudinal axis. The bonding agent has been melted and solidified at the first and second ends.

Abstract: A fiber optic connector sub-assembly includes a ferrule having a front end, a rear end, and a ferrule bore extending between the front and rear ends along a longitudinal axis. The ferrule bore has a first section extending inwardly from the rear end of the ferrule, a second section extending inwardly from the front end of the ferrule and having a width that is less than the first section, and a transition section located between the first and second sections. The fiber optic connector sub-assembly also includes a bonding agent disposed in at least a portion of both the transition section and the second section of the ferrule bore. At least some of the bonding agent in the second section of the ferrule bore has been melted and solidified.

Abstract: An optical fiber connector preloaded with an adhesive is provided. The optical connector includes a body having a passage with a first section extending inwardly from a first face of the body, a second section extending inwardly from a second face from the body, and a transition section located between the first section and the second section. The first section of the passage has a first width and the second section of the passage has a second width that is less than the first width. An adhesive composition is located within the transition section of the passage and is configured to bind an optical fiber to an inner surface of the second section following melting and solidification of the adhesive composition.

Abstract: A method of terminating an optical fiber involves providing a ferrule having a front end, a rear end, a ferrule bore extending between the front and rear ends, and a bonding agent disposed in at least a portion of the ferrule bore. The method also involves applying energy to heat the bonding agent. An end section of an optical fiber is inserted into the ferrule bore and through the bonding agent when the bonding agent is heated. The end section of the optical fiber includes a primary coating prior to insertion into the ferrule bore. During insertion of the end section of the optical fiber through the bonding agent, the heated bonding agent thermally removes at least a portion of the primary coating during so that the optical fiber can be secured in the ferrule bore with the bonding agent.