Wind turbine blade shear webs

The invention claimed is: 1. A mould for making a wind turbine blade shear web, the shear web comprising a longitudinally-extending web panel and a mounting flange extending along a longitudinal edge of the web panel and transverse to the web panel, the mounting flange comprising a first portion extending on a first side of the web panel and a second portion extending on a second side of the web panel, the mould comprising: a longitudinally-extending main surface shaped to form the web panel, the main surface having a longitudinal edge; a side surface arranged transverse to the main surface and extending downwards from the longitudinal edge of the main surface; a base surface arranged transverse to the main surface and spaced from the side surface, the base surface having a first portion extending below the main surface to a first end of the base surface and a second portion extending above the main surface to a second end of the base surface, wherein the first portion of the base surface is spaced from the side surface to define a mould cavity between the side surface and the first portion of the base surface, the mould cavity being configured to form the first portion of the mounting flange; and a datum-forming surface extending transversely from the second end of the base surface and defining a longitudinal edge at an intersection of the second portion of the base surface and the datum-forming surface, the second portion of the base surface and the datum-forming surface being configured to form the second portion of the mounting flange, and the datum-forming surface being configured to define a longitudinal edge of the second portion of the mounting flange. 2. The mould of claim 1 , wherein the first end of the base surface is connected to the side surface via an end surface configured to define a longitudinal edge of the first portion of the mounting flange. 3. The mould of claim 1 , wherein the datum-forming surface is angled at 90 degrees or less relative to the second portion of the base surface. 4. The mould of claim 1 , wherein the mould comprises a main mould portion defining the main surface, and one or more separable mould elements defining at least one of the base surface and the datum-forming surface. 5. A method of making a wind turbine blade shear web, the shear web comprising a longitudinally-extending web panel and a mounting flange extending along a longitudinal edge of the web panel and transverse to the web panel, the mounting flange comprising a first portion extending on a first side of the web panel and a second portion extending on a second side of the web panel, the method comprising: providing a mould comprising: a longitudinally-extending main surface having a longitudinal edge, a side surface arranged transverse to the main surface and extending downwards from the longitudinal edge of the main surface, a base surface arranged transverse to the main surface and spaced from the side surface, the base surface having a first portion extending below the main surface to a first end of the base surface and a second portion extending above the main surface to a second end of the base surface, wherein the first portion of the base surface is spaced from the side surface to define a mould cavity between the side surface and the first portion of the base surface; and a datum-forming surface extending transversely from the second end of the base surface and defining a longitudinal edge at an intersection of the second portion of the base surface and the datum-forming surface; arranging one or more layers of fibrous material on the main surface of the mould to form the web panel; arranging one or more layers of fibrous material in the mould cavity between the side surface and the first portion of the base surface to form the first portion of the mounting flange; arranging one or more layers of fibrous material against the second portion of the base surface and the datum-forming surface to form the second portion of the mounting flange, wherein at least one layer of fibrous material is arranged to extend across the longitudinal edge at the intersection of the second portion of the base surface and the datum-forming surface; and integrating the fibrous material with resin to form a shear web comprising an integrally formed mounting flange. 6. The method of claim 5 , wherein the mould comprises a main mould portion defining the main surface, and one or more separable mould elements defining at least one of the base surface and the datum-forming surface, and wherein the method comprises arranging the or each separable mould element with the main mould portion prior to arranging the one or more layers of fibrous material against the second portion of the base surface and the datum-forming surface. 7. The method of claim 6 , wherein arranging one or more layers of fibrous material in the mould cavity comprises first arranging one or more layers of fibrous material with the side surface of the mould, and subsequently arranging the or each separable mould element with the main mould portion such that said fibrous material is sandwiched in the mould cavity between the side surface and first portion of the base surface. 8. The method of claim 7 , further comprising arranging at least a portion of one or more base layers of fibrous material with the one or more layers of fibrous material arranged with the side surface of the mould, subsequently arranging the or each separable mould element with the main mould portion, and subsequently arranging the or each base layer of fibrous material with the base surface to extend between the first and second ends of the base surface. 9. The method of claim 5 , wherein arranging one or more layers of fibrous material against the second portion of the base surface and the datum-forming surface further comprises arranging at least one layer of fibrous material to run out of the mould beyond a distal edge of the datum-forming surface. 10. The method of claim 5 , further comprising arranging at least one layer of fibrous material to extend over a portion of both the main surface and the side surface, and arranging at least one layer of fibrous material to extend over a portion of both the main surface and the second portion of the base surface. 11. The method of claim 5 , further comprising arranging a vacuum bag over the layers of fibrous material in the mould and sealing the vacuum bag to the mould such that a second mould cavity is defined between the vacuum bag, the main surface, the base surface, and the datum-forming surface, the second mould cavity being configured to form the second portion of the mounting flange. 12. A wind turbine blade comprising an outer shell and a shear web connected between inner surfaces of the outer shell, the shear web comprising a longitudinally-extending web panel and a mounting flange extending along a longitudinal edge of the web panel and transverse to the web panel, the mounting flange comprising a first portion extending on a first side of the web panel and a second portion extending on a second side of the web panel, the first and second portion of the mounting flange together defining a mounting surface for connection to an inner surface of the outer shell, wherein the second portion of the mounting flange comprises a datum feature extending transverse to the mounting surface and defining an edge of the second portion of the mounting flange. 13. The wind turbine blade of claim 12 , wherein the datum feature extends away from the mounting surface. 14. The wind turbine blade of claim 12 , wherein the first portion of the mounting flange is substanti