The present invention provides an improved fire resistant distribution pole and a method of installing the fireproof distribution pole. According to a preferred embodiment, the present invention includes a hollow, tapered main body which includes an intumescent veil layer. According to a further preferred embodiment, the intumescent veil layer includes a single layer of 1-2 mm thick intumescent material which extends from substantially 1 foot below grade level to 12-18 feet above grade level.

The present invention provides an improved pole assembly. According to a first preferred embodiment, the present invention includes a first pole section which is formed by an inner shell wall surrounding a hollow inner cavity. According to a further preferred embodiment, the inner shell wall is formed as a first column of a given shape, which is formed of fiberglass reinforced polymer, and which is surrounded by a center fill layer. The center fill layer is preferably formed of SSC concrete which surrounds the inner shell wall. According to a further preferred embodiment, the present invention preferably further includes an outer shell wall which is formed as a second column of a given shape, which surrounds the center fill layer.

A post comprises a first end and a second end. The first end comprises a connection arrangement for fixing the post to the ground or the bottom under water and wherein the post is tubular. A first layer of the post is made of a plastic and a second layer is made of a composite material having a higher e-modulus than that of the plastic and wherein the first layer comprises at least one hole which the composite material of the second layer extends at least partly into.

A post comprises a first end and a second end. The first end comprises a connection arrangement for fixing the post to the ground or the bottom under water and wherein the post is tubular. A first layer of the post is made of a plastic and a second layer is made of a composite material having a higher e-modulus than that of the plastic and wherein the first layer comprises at least one hole which the composite material of the second layer extends at least partly into.

A utility pole system that provides for easy temperature inspection of the fiberglass reinforced plastic utility pole. The system may include utility pole and a sleeve arranged around the pole, and a temperature sensor positioned underneath the sleeve.

A method of modular pole construction an elongate modular pole structure is disclosed. A first step of the method involves providing hollow pole section modules, each module having an elongated structure with a base end and an opposed tip end. The modules are stacked to form an elongated modular pole structure of a selected length by mating the tip end of a base module with the base end of an additional module. One or more than one of the modules forming the elongated modular pole structure comprise a composite material having fire resistant properties.

A method of modular pole construction an elongate modular pole structure is disclosed. A first step of the method involves providing hollow pole section modules, each module having an elongated structure with a base end and an opposed tip end. The modules are stacked to form an elongated modular pole structure of a selected length by mating the tip end of a base module with the base end of an additional module. One or more than one of the modules forming the elongated modular pole structure comprise a composite material having fire resistant properties.

A wind turbine including a support structure and one or more turbine blades is presented, that incorporates ways for reducing the radar cross section (RCS), wherein the support structure is notionally divided into an upper section in the shadow of the blade sweep area, and a lower section beneath the upper section, wherein the upper section is adapted to have the ways for reducing the RCS, and the lower section does not have the adaptation. The invention makes use of the realisation that the blade masking the tower as it rotates (or the blade being masked by the tower if facing away from a radar), contributes significantly to interference to radar systems, and so localised application of e.g. RAM can give good RCS reduction at a lower cost than treating the whole structure.

The present invention relates to a STEM with secondary curvature in extension and to methods of manufacture. In an aspect, an extendible member (10) is provided which is configurable between a coiled form (11) and an extended form (12). The member comprises a longitudinal shell resiliently biased in a slit tube form in which it has a first curvature relative to the hoop of slit tube and has a secondary curvature relative to the longitudinal axis of the member. The slit tube can be opened out at the slit to assume an open form in which it has a flattened cross section in transitioning from the extended form to the coiled form. The strain energy when coiled is lower than the peak strain energy in the member when transitioning from the extended to the coiled form.

The present invention corresponds to a device for positioning elements along a support body, comprising a first plate with a groove on its perimeter and a second plate with a groove on its perimeter, the first plate is in contact with the second plate, wherein the groove of the first plate and the groove of the second plate are coincident, and in which the positioning elements are arranged between the grooves of the first plate and the second plate. Additionally, the first plate and second plate have fastening means allowing them to be fastened to the support body.