Method of making a multilayer article

The invention claimed is: 1. A method of making a free-standing, self-supporting multilayer article, comprising: providing a mould defining a first mould cavity, wherein the mould comprises a removable element within the first mould cavity; placing a first particulate component in the first mould cavity; compressing the first particulate component along a first axis in a first compression step to form a first layer of the free-standing, self-supporting multilayer article by applying a first compression force to the first particulate component; removing the removable element from the first mould cavity after formation of the first layer; placing one or more additional particulate components in the mould, wherein a portion of the one or more additional particulate components occupies a space formerly occupied by the removable element; compressing the one or more additional particulate components along the first axis in one or more additional compression steps after removal of the removable element to form one or more additional layers of the free-standing, self-supporting multilayer article, wherein the first layer meets one of the one or more additional layers along a first interface substantially parallel to the first axis and the first layer meets one of the one or more additional layers along a second interface substantially perpendicular to the first axis; and removing the free-standing, self-supporting multilayer article from the mould, wherein the one or more additional compression steps comprise applying a compression force to the one or more additional particulate components prior to removing the free-standing, self-supporting multilayer article from the mould that is greater than the first compression force applied to the first particulate component to form the first layer. 2. The method according to claim 1 , further comprising: compressing the one or more additional particulate components along the first axis in one or more additional compression steps after removal of the removable element to form a second layer of the free-standing, self-supporting multilayer article and a third layer of the free-standing, self-supporting multilayer article, wherein the first layer meets the second layer along a first interface substantially parallel to the first axis and the first layer meets the third layer along a second interface substantially perpendicular to the first axis. 3. The method according to claim 2 , further comprising: removing the removable element from the first mould cavity after formation of the first layer; placing a second particulate component in a second mould cavity defined by a portion of the mould and a portion of the first layer; compressing the second particulate component along the first axis in a second compression step to form the second layer of the free-standing, self-supporting multilayer article by applying a second compression force; placing a third particulate component in a third mould cavity defined by a portion of the mould, a portion of the first layer and a portion of the second layer; and compressing the third particulate component along the first axis in a third compression step to form the third layer of the free-standing, self-supporting multilayer article by applying a third compression force, wherein the third compression force applied to the third particulate component to form the third layer is greater than the first compression force applied to the first particulate component to form the first layer and the second compression force applied to the second particulate component to form the second layer. 4. The method according to claim 3 , further comprising: placing the first particulate component around the removable element in the first mould cavity; compressing the first particulate component along the first axis in the first compression step to form an outer first layer of the free-standing, self-supporting multilayer article circumscribing the removal element; removing the removable element from the first mould cavity after formation of the annular first layer; placing the second particulate component in a second mould cavity defined by a portion of the mould and an inner surface of the outer first layer; compressing the second particulate component along the first axis in the second compression step to form an inner second layer of the free-standing, self-supporting multilayer article circumscribed by the outer first layer placing the third particulate component in a third mould cavity defined by a portion of the mould, a portion of the outer first layer and a portion of the inner second layer; and compressing the third particulate component along the first axis in the third compression step to form the third layer of the free-standing, self-supporting multilayer article. 5. The method according to claim 4 , further comprising: providing a mould defining a substantially cylindrical first mould cavity, wherein the mould comprises a substantially cylindrical removable element; within the substantially cylindrical first mould cavity; placing the first particulate component around the substantially cylindrical removable element in the substantially cylindrical first mould cavity; compressing the first particulate component along the first axis in the first compression step to form a substantially cylindrical annular outer first layer of the free-standing, self-supporting multilayer article circumscribing the substantially cylindrical removable element; removing the substantially cylindrical removable element from the substantially cylindrical first mould cavity after formation of the substantially cylindrical annular outer first layer; placing the second particulate component in a substantially cylindrical second mould cavity defined by a portion of the mould and an inner annular surface of the substantially cylindrical annular outer first layer; compressing the second particulate component along the first axis in the second compression step to form a substantially cylindrical inner second layer of the free-standing, self-supporting multilayer article circumscribed by the substantially cylindrical annular outer first layer; placing the third particulate component in a third mould cavity defined by a portion of the mould, a portion of the substantially cylindrical annular outer first layer and a portion of the substantially cylindrical inner second layer; and compressing the third particulate component along the first axis in the third compression step to form the third layer of the free-standing, self-supporting multilayer article. 6. The method according to claim 5 , further comprising: compressing the second particulate component along the first axis in the second compression step to form a substantially cylindrical inner second layer of reduced height compared to the substantially cylindrical annular outer first layer; placing the third particulate component in a third mould cavity defined by a portion of the mould, an inner annular surface and end face of the substantially cylindrical annular outer first layer and an end face of the substantially cylindrical inner second layer; and compressing the third particulate component along the first axis in the third compression step to form the third layer of the free-standing, self-supporting multilayer article. 7. The method according to claim 3 , wherein the second particulate component and the third particulate component have the same composition. 8. The method according to claim 3 , wherein the second particulate component and the third particulate component have different compositions. 9. The method according to claim 3 , wherein the second particulate component and the third particulate component ha