South African type XF tender | |
Hatnote: | ♠ 6 long tons coal capacity 10 long tons coal capacity 11¾ long tons coal capacity |
Locomotive: | IMR 8th Class CGR 8th Class of 1902 (3rd) CSAR Class 8-L2 CSAR Class 8-L3 CGR 8th Class of 1904 ♠ SAR Class ME |
Designer: | Cape Government Railways (H.M. Beatty) |
Builder: | Neilson, Reid and Company ♠ North British Locomotive Co. Sharp, Stewart and Company South African Railways |
Date: | ♠ 1902-1912 |
Rebuiltfrom: | Types XC, XD, XE1 |
Rebuilder: | South African Railways |
Rebuilddate: | c. 1925 |
Wheelarr: | 2-axle bogies |
Length: | 22feet |
Wheeldiameter: | NaN0NaN0 as built 340NaN0 retyred |
Wheelbase: | 14feet |
Bogie: | 4feet |
Axleload: | ♠ 9lt 11lt 12lt |
Bogie 1: | ♠ 18lt 20lt |
Bogie 2: | ♠ 19lt 22lt 24lt |
Tenderempty: | 44032lb |
Tenderworking: | ♠ 37lt 43lt 44lt |
Fueltype: | Coal |
Fuelcap: | ♠ 61NaN1 101NaN1 11lt |
Watercap: | ♠ 3000sigfig=3NaNsigfig=3 |
Stoking: | Manual |
Coupling: | Drawbar & Johnston link-and-pin Drawbar & AAR knuckle (1930s) |
Operator: | Imperial Military Railways Cape Government Railways Central South African Railways South African Railways |
Fleetnumbers: | SAR 1082-1191, 1234-1243, 1618 |
See main article: article and South African steam locomotive tenders.
The South African type XF tender was a steam locomotive tender from the pre-Union era in Transvaal.
Type XF tenders first entered service in 1902, as tenders to the Mastodon type steam locomotives which were acquired by the Imperial Military Railways in that year. These locomotives were designated Class 8A on the South African Railways in 1912.[1] [2]
Type XF tenders were built between 1901 and 1912 by Neilson, Reid and Company, North British Locomotive Company and Sharp, Stewart and Company.[1] [2]
The original 8th Class locomotive and tender was designed in 1901 by H.M. Beatty, Chief Locomotive Superintendent of the Cape Government Railways (CGR), at its Salt River works in Cape Town. The Type XF first entered service in 1902, as tender to the forty 8th Class locomotives which were built for the Imperial Military Railways (IMR) by Neilson, Reid and Sharp, Stewart. The tender's design could therefore possibly be credited to Lieutenant Colonel E.P.C. Girouard KCMG DSO RE, Director of Railways of the IMR. When the Central South African Railways (CSAR) was established from the IMR at the end of the Second Boer War, these locomotives were designated .[1] [2]
As built, the tenders had a coal capacity of 61NaN1. By 1941, most of them had their coal bunkers enlarged, either by having their bunker sides raised or by being rebuilt with a completely new upper structure mounted on their original frames. At that stage, only tender no. 1618, which entered service with the sole Class ME locomotive in 1912, was still on record with its as-built coal capacity and a maximum axle load of 9lt.[1] [2]
In the SAR years, tenders were numbered for the engines they were delivered with. In most cases, an oval number plate bearing the engine number and often also the tender type, would be attached to the rear end of the tender. During the classification and renumbering of locomotives onto the SAR roster in 1912, no separate classification and renumbering list was published for tenders, which should have been renumbered according to the locomotive renumbering list.[2] [3]
Six locomotive classes were delivered new with Type XF tenders, built by three manufacturers. Bearing in mind that tenders could and did migrate between engines, the tenders should have been numbered in the SAR number ranges as shown.[1] [2] [3]
Since many tender types are interchangeable between different locomotive classes and types, a tender classification system was adopted by the SAR. The first letter of the tender type indicates the classes of engines to which it can be coupled. The "X_" tenders could be used with the locomotive classes as shown.[2]
The second letter indicates the tender's water capacity. The "_F" tenders had a capacity of 3000impgal.[2]
A number, when added after the letter code, indicates differences between similar tender types, such as function, wheelbase or coal bunker capacity.[2]
Since SAR tender type classification is based on the classes of engines to which it can be coupled and its water capacity, tenders of the same type can be completely different in appearance, which makes it difficult to identify many tender types by physical appearance alone. In the case of the Type XF, some of the tenders were modified after entering service, while some began as other tender types which were later rebuilt with larger capacity water tanks, which reclassified them from those other types to Type XF. As a result, three different versions of the Type XF tender eventually saw service on the SAR, all with the same water capacity of 3000sigfig=3NaNsigfig=3, but with different coal capacities and maximum axle loads.[1] [2]
Compared to builder's pictures, which show the locomotives and tenders as built, pictures of most of these locomotives in service show them with a modified tender with built-up sides to the coal bunker to increase the coal capacity. Early versions of the built-up coal bunker sides were in the form of a slatted open-top cage, made of rectangular steel rods. Later versions were constructed of sheet-metal.[1] [2]
From c. 1925, many Type XF tenders were completely rebuilt by the SAR by mounting a new upper structure on the existing underframe, with new water tanks and a larger coal capacity. These rebuilt tenders had a more modern appearance, with flush sides all the way to the top of the coal bunker. They had a coal capacity of 101NaN1 and a maximum axle load of 11lt, but since their water capacity remained unchanged, they were not reclassified.[1] [2] [4]
A second version of these rebuilt tenders had a coal bunker of which the sides extended further rearwards to immediately ahead of the tank's refill manhole. These tenders had a coal capacity of 11lt and a maximum axle load of 12lt.[1] [2] [4]
Also beginning during the late 1920s and using the same drawings, some redundant Type XC tenders from re-tendered Class 10C locomotives, some Type XD tenders from Classes 6H, 6J and 8, and some Type XE1 tenders from Classes 8, 8D, 8E, 8F, 8Y, 8Z and Experimental 4, were also rebuilt with new upper structures on their existing underframes. Since their new tanks increased their water capacity to 3000sigfig=3NaNsigfig=3, these tenders were reclassified to Type XF.[1] [2] [4]
The program to rebuild several older tender types with new upper structures was begun by Col F.R. Collins DSO, who approved several of the detailed drawings for the work during his term in office as Chief Mechanical Engineer of the SAR from 1922 to 1929. It was continued by his successor, A.G. Watson.[5]