In December of 1939 the excavation of a diversion tunnel was commenced to divert water from the East Kiewa River to allow construction of the dam wall. This was completed in February, 1940. Lewis Construction Company had the contract with excavation starting in February and the first batch of concrete placed in September. In 1942 the SECV took over the construction and the wall was completed in March, 1944. Type of construction: Reinforced concrete, slab buttress.Of historical importance in the Kiewa area as it shows the form work and preparation necessary before the pouring of concrete for the first dam in the hydro electric scheme. The destruction caused by the 1939 bushfires is also evident in the upper left hand cornerBlack and white photo, early construction of Junction Dam Wall, viewed from downstreamOn back of photo (left hand upper corner) Junction Dam 5-4-81 Dam viewed from downstream. 352 Time to use for correct exp. 40 sec.bogong, junction dam, secv

Excavation of a diversion tunnel was commenced in 1939 to divert water from the East Kiewa River to allow construction of the dam wall. This was completed in February 1940 and excavation for the dam wall commenced in the same month, with the first batch of concrete placed in September. Lewis construction Company had the contract, but the S.E.C. took over construction in March 1942 and the dam was completed in March 1944. Type of construction: reinforced concrete, slab buttress.Importance in the Kiewa area as it shows the formwork and preparation necessary before the pouring of concrete for the first dam in the Kiewa Hydro Electric SchemeBlack and white photos (2 identical) of early construction of Junction Dam wall, viewed from downstream.Back of photo, upper right hand corner: No. 1 - Construction of Bogong Dam Wall (written in pencil) No. 2 - Same as one (written in pencil)construction, dam wall, excavation, bogong, secv

This photograph was taken during the upgrade of the Bendigo Railway line at Sunbury Station.A coloured photograph of construction on the site of the Sunbury Railway Station. The rail track has been lowered and the station platform has been narrowed to accommodate the new trains. The former bluestone wall below the platform on the Melbourne side of the station has been replaced by reinforced concrete. The rail lines have been placed along the track on the RHS of the photograph.railways, bendigo line, railway stations, bridges, sunbury railway station, george evans collection

The area of Hurstbridge was originally known as Hurst’s-bridge after the timber bridge built over the Diamond Creek near Hurst’s station in late 1881/early 1882. A large group of people can be seen strolling across the timber bridge over the Diamond Creek on Hurstbridge-Arthurs Creek Road, Hurstbridge. It was built by John McDonald, of Arthur's Creek and was demolished and replaced in 1917 by a reinforced concrete arch bridge designed by John Monash.This photo forms part of a collection of photographs gathered by the Shire of Eltham for their centenary project book, "Pioneers and Painters: 100 years of the Shire of Eltham" by Alan Marshall (1971). The collection of over 500 images is held in partnership between Eltham District Historical Society and Yarra Plenty Regional Library (Eltham Library) and is now formally known as 'The Shire of Eltham Pioneers Photograph Collection.' It is significant in being the first community sourced collection representing the places and people of the Shire's first one hundred years.Digital image 4 x 5 inch B&W Negshire of eltham pioneers photograph collection, 1912, bridge, diamond creek (creek), hurstbridge, hurst's bridge

Looking northwest onto the first bridge at Hurstbridge, 1885. The area of Hurstbridge was originally known as Hurst’s-bridge after the timber bridge built over the Diamond Creek near Hurst’s station in late 1881/early 1882 on the Hurstbridge-Arthurs Creek Road, Hurstbridge. It was built by John McDonald, of Arthur's Creek and was demolished and replaced in 1917 by a reinforced concrete arch bridge designed by John Monash. Cross Reference Photo No.(s): 1012/1013This photo forms part of a collection of photographs gathered by the Shire of Eltham for their centenary project book,"Pioneers and Painters: 100 years of the Shire of Eltham" by Alan Marshall (1971). The collection of over 500 images is held in partnership between Eltham District Historical Society and Yarra Plenty Regional Library (Eltham Library) and is now formally known as the 'The Shire of Eltham Pioneers Photograph Collection.' It is significant in being the first community sourced collection representing the places and people of the Shire's first one hundred years.Digital image 4 x 5 inch B&W Negshire of eltham pioneers photograph collection, hurstbridge, bridge, diamond creek (creek), hurst's bridge

In 1867, Frenchman Joseph Monier patented the use of metal reinforced concrete for use in horticultural troughs. Francois Hennebique expanded this idea into a general construction technique including for the construction of bridges bridges with the first bridge built in 1875. In Victoria, Monash and Anderson, representatives of the Australian patent holders and later Victorian patent holders. The Bendigo Monier Bridges were built between 1901 and 1902. Monash's contribution was not in the actual technology but in the promotion and defence of the new technology that was faced by much doubt and scepticism.Ten page booklet with a red and white cardboard cover produced for the Engineering Heritage Recognition Ceremony held on 9th August 2014. Includes the story of the Monier Arched Bridges in Bendigo. Includes B&W and coloured photographs. Produced by Engineers Australia.monier, monier bridges, sir john monash, joshua anderson, engineering

In 1867, Frenchman Joseph Monier patented the use of metal reinforced concrete for use in horticultural troughs. Francois Hennebique expanded this idea into a general construction technique including for the construction of bridges with the first bridge built in 1875. In Victoria, Monash and Anderson, representatives of the Australian patent holders and later Victorian patent holders. The Bendigo Monier Bridges were built between 1901 and 1902. Monash's contribution was not in the actual technology but in the promotion and defence of the new technology that was faced by much doubt and scepticism.Single A4 sheet, Appendix E, photocopied from "The Monier Bridges of Bendigo" Includes dates and specifications of Victorian Monier Arched Bridges. Prepared by the Dept of Civil Engineering, Monash University. July 1988monier bridges, engineering

In 1867, Frenchman Joseph Monier patented the use of metal reinforced concrete for use in horticultural troughs. Francois Hennebique expanded this idea into a general construction technique including for the construction of bridges bridges with the first bridge built in 1875. In Victoria, Monash and Anderson, representatives of the Australian patent holders and later Victorian patent holders. The Bendigo Monier Bridges were built between 1901 and 1902. Monash's contribution was not in the actual technology but in the promotion and defence of the new technology that was faced by much doubt and scepticism.Series of Bendigo Advertiser articles on the theme of Monier Bridges. Five articles from "Discover Bendigo" by James Lerk. 1999 One article from "History Lives" by Jim Evens titled 'Building History Bridges" 2014 Two black and white photos from "The Way we Were" featuring the construction of the Booth Street Bridge 2014 and the collapse of the King Street bridge 2015.monier bridges, engineering

Photo No. 1 - Junction Dam wall was commenced in February, 1940 and completed in March 1944. Type - reinforced concrete slab and buttress. Height 25.9m, and crest length 121.9m. Lewis Construction company had the original contract, but was replaced by the State Electricity Commission in 1942. Photo No. 2 - Bogong Village was the first village built to house workers and their families working on the Hydro electric scheme. Construction commenced 1940. The single men's quarters are slightly right of centre on the foreshore. Lake Guy was named after a former resident engineer.Shows the type of terrain where the village is located resulting in the tiered layout that was necessary in order to erect housing.set of 2 black and white photos - Photo No. 1 - downstream view of Junction Dam Wall Photo No. 2 - Lake Guy and Bogong Village. Both are on photographic paperPhoto No. 1 - Upper right hand corner, back of photo, handwritten in ink or biro, Bogong 1950 Photo No. 2 - Left lower corner, front of photo in white, Bogong.bogong village, lake guy, secv

EIG School - Ralph Birrell Collection. - Construction of Latrobe Uni. C1967. Bendigo Institute of Technology, Engineering School, Applied Science. 2 men working with reinforcing for concrete.Kodakeducation, tertiary, latrobe university bendigo, eig school - ralph birrell collection. - construction of latrobe uni. c1967. bendigo institute of technology, engineering school, applied science. 2 men reinforcing concrete.

This is a set of ten photographs of Lithographic Squadron’s Printing Building at the Army Survey Regiment, Fortuna, Bendigo, c1986. The building was originally George Lansell’s gold crushing battery. When the Army took possession of Fortuna in 1942, it was modified with reinforced concrete floors to house the heavy-duty printing equipment. An additional building was purpose built on the eastern side of the printing building in 1987 to house a new computer-controlled Heidelberg Speedmaster five colour lithographic offset Printing Press. See item 6131.18P for photos of foundation preparation for the new building. This is a set of ten photographs of Lithographic Squadron’s Printing Building at the Army Survey Regiment, Fortuna, Bendigo, c1986. Black and white photographs are on 35mm negative film and scanned at 96 dpi. They are part of the Army Survey Regiment’s Collection. .1) to .10) - Photos, black & white, c1986. Lithographic Squadron’s Printing Building.There are no annotations with the photos. royal australian survey corps, rasvy, army survey regiment, army svy regt, fortuna, asr, litho sqn, litho

The area of Hurstbridge was originally known as Hurst’s-bridge after the timber bridge built over the Diamond Creek near Hurst’s station in late 1881/early 1882 on Hurstbridge-Arthurs Creek Road, Hurstbridge. It was built by John McDonald, of Arthur's Creek and was demolished and replaced in 1917 by a reinforced concrete arch bridge designed by John Monash. Part of a slide show presentation "Bridges & Waterways of the Shire" by Russell Yeoman to the 13 September 1989 Society meeting. The presentation included slides of historic photos from the Shire of Eltham Pioneers collections as well as several recent views. This photo forms part of a collection of photographs gathered by the Shire of Eltham for their centenary project book, Pioneers and Painters: 100 years of the Shire of Eltham" by Alan Marshall (1971). The collection of over 500 images is held in partnership between Eltham District Historical Society and Yarra Plenty Regional Library (Eltham Library) and is now formally known as 'The Shire of Eltham Pioneers Photograph Collection.' It is significant in being the first community sourced collection representing the places and people of the Shire's first one hundred years.Digital imageshire of eltham pioneers photograph collection, 1912, bridge, diamond creek (creek), hurstbridge, hurst's bridge

Looking northwest onto the first bridge at Hurstbridge, 1885. Timber bridge amid rural setting. Two horses graze in an open paddock in the foreground. A house is situated on a rise behind the bridge on a tree lined hill. The area of Hurstbridge was originally known as Hurst’s-bridge after the timber bridge built over the Diamond Creek near Hurst’s station in late 1881/early 1882 on the Hurstbridge-Arthurs Creek Road, Hurstbridge. It was built by John McDonald, of Arthur's Creek and was demolished and replaced in 1917 by a reinforced concrete arch bridge designed by John Monash. Cross Reference Photo No.(s): 1012/1013This photo forms part of a collection of photographs gathered by the Shire of Eltham for their centenary project book, "Pioneers and Painters: 100 years of the Shire of Eltham" by Alan Marshall (1971). The collection of over 500 images is held in partnership between Eltham District Historical Society and Yarra Plenty Regional Library (Eltham Library) and is now formally known as 'The Shire of Eltham Pioneers Photograph Collection.' It is significant in being the first community sourced collection representing the places and people of the Shire's first one hundred years.Digital image 4 x 5 inch B&W Negshire of eltham pioneers photograph collection, hurstbridge, bridge, diamond creek (river), diamond creek (creek), hurst's bridge

In 1977, artist Annette Meikle undertook a commission to illustrate a book recording stories of places and people in the Bayside area. It was published in 1978 as Sandringham Sketchbook, with text by Elizabeth Waters. The sketches were intended to record remaining examples of Bayside’s early architecture and environment, as well as reflect newer architectural changes. Meikle went on to donate 22 of these sketches to Bayside City Council in 2003. All Souls Memorial Church, located at 48 Bay Road, Sandringham, is believed to be the first reinforced concrete church in Australia. The foundation stone laid on 7 September 1919 and was consecrated in December 1921, the church seats 350 and contains an organ loft, a marble chancel floor, and Australian hardwood pulpit and pews.Annette Meikle, Church of England 1977, ink and watercolour, 35.6 x 25 cm. Bayside City Council Art and Heritage Collection. Donated by the artist, 2003annette meikle, sandringham sketchbook, elizabeth waters, all souls memorial church, church, building, architecture, bay road, sandringham, church of england

Monash Bridge spans the Diamond Creek at Hurstbridge. It was built in 1917 for the Shires of Heidelberg, Eltham and Whittlesea. It is considered Nillumbik Shire's finest engineered bridge and was construced by the engineering company of Sir John Monash. Covered under Heritage Overlay, Nillumbik Planning Scheme. Published: Nillumbik Now and Then /​ Marguerite Marshall 2008; photographs Alan King with Marguerite Marshall.; p117 Monash Bridge is considered the Shire’s finest engineered bridge and was constructed by the engineering company of that great Australian, Sir John Monash.1 The bridge spans Diamond Creek on the Hurstbridge-Arthurs Creek Road, linking Hurstbridge with Yarrambat and Arthurs Creek. Monash Bridge, also called Hurst’s Bridge, was built in 1917, by the Reinforced Concrete and Monier Pipe Construction Company Pty Ltd, for the Shires of Heidelberg, Eltham and Whittlesea. Although Monash was probably in action overseas during World War One when the bridge was designed and constructed, he evolved the basic design in the 1900s and it was a standard design for the firm. However J A Laing, a designer at the firm, was probably the designer, as his initials are on bridge drawings held by the Eltham District Historical Society.2 The bridge is an excellent early Australian example of an open spandrel reinforced concrete arch bridge and has a single span of 29 metres. It is unusual in Victoria, but similar to many reinforced concrete arch bridges in Europe and America, built from the late 19th century. In Victoria, Monash pioneered the use of reinforced concrete – then a revolutionary construction material. His company, Monash & Anderson, had the exclusive licence for the Monier patent for the system of reinforced concrete construction for Victoria and New South Wales. A well-known example of the Monier arch bridge is the Morell Bridge in South Yarra. The sweeping arch of the Monash Bridge combines grace and utility and blends with the surrounding rural landscape. Its design and construction have allowed it to carry increasing volumes of heavy traffic, but in modern times the one lane is considered by some to prevent easy passage through Hurstbridge. However others consider this an asset to deter too much more traffic, which would diminish Hurstbridge’s charming rural character.3 This is the third bridge across the Diamond Creek at this site. The original bridge was a log bridge upstream, constructed in the 1850s by early settler, Henry Hurst, after whom Hurstbridge was named. The bridge spanned the creek, where it divided his family’s property. In the 1880s a timber bridge replaced it, known as Hurst’s Bridge. However a more permanent bridge was considered necessary when the new railway arrived in 1912, bringing with it expectations of growth in the town and the surrounding fruit-growing district. Monash Bridge’s official opening on November 3, 1917 was a gala occasion, which took place before about 1000 spectators. Two who attended the opening had a particularly sound knowledge of the locality. One was Fred Hurst, Henry’s brother, who used to ford the creek at or near the bridge’s site more than 50 years before. The other was John McDonald of Arthurs Creek, who had built the old wooden bridge over the creek about 40 years earlier.4 Although John Monash was a fine engineer, his fame came from his brilliant war career, rather than from his engineering or his many other achievements. Monash was Corps Commander of the Australian Forces. His brilliance was recognised with his awards: Knight Grand Cross of the Order of St. Michael and St. George, and Knight Commander of the Bath. Monash was also decorated by the French, Belgian, and American Governments.5 After the war, Monash worked in many prominent civilian positions, the most notable as head of the Victorian State Electricity Commission. He was a leading and loved public figure, involved in many public and private organisations. He was president of the Australian Zionist Federation and involved in the Boy Scouts. Monash University is named after him. By the 1920s Monash was probably regarded as the greatest living Australian.6 Despite most of his life working as an administrator and leader, rather than a fighting soldier, he became integral to the ANZAC legend. Monash died in 1931.This collection of almost 130 photos about places and people within the Shire of Nillumbik, an urban and rural municipality in Melbourne's north, contributes to an understanding of the history of the Shire. Published in 2008 immediately prior to the Black Saturday bushfires of February 7, 2009, it documents sites that were impacted, and in some cases destroyed by the fires. It includes photographs taken especially for the publication, creating a unique time capsule representing the Shire in the early 21st century. It remains the most recent comprehenesive publication devoted to the Shire's history connecting local residents to the past. nillumbik now and then (marshall-king) collection, hurstbridge, monash bridge

Cross section of wharves and steel framed sheds built along the Yarra river between the 1920s and 1960s. The South Melbourne side of the Yarra River is reclaimed swamp land. Without a solid foundation for the construction of the wharves and transit sheds, extended piles were sunk into the mud to support the wharf and shed structures. An example of this design may be found at 5 South Wharf which was built in the 1930s. The transit sheds gave shelter for cargo while waiting to be loaded onto a ship or to be collected by truck after being unloaded from a ship. The transit shed became surplus to requirements with the introduction of containers.Wooden diagram of a transit shed featuring a shed sitting atop mud with some water. It shows the splices sitting in the mud to support the shed. "Steel Frames Transit Shed/ 15 South Wharf/ Model of Typical wharf construction/ of 1940- made for the opening of/ the "new" 15 South wharf shed (1944),/ Note the deep piles and elevated/ rear of the shed to allow for the truck/ trays./ This shed feature disappeared/ from port construction with the/ coming of the container era/ reinforced wharf apron/ 3 ton travelling crane/ reinforced concrete shed floor/ concrete road/ water level/ concrete pile cap/ cradled piles/ timber pile splices/ mud/ mild steel pile splices/ 110 ft pile" "On loan from Port of Melbourne Authority"

This set of photos is from a leather bound album bearing the inscription "HUME RESERVOIR AUSTRALIA" plus 'The Rt. Hon. L. C. M. S. Amery, P. C., M .P.' all inscribed in gold. It was presented to The Rt. Hon. L. C. M. S. Amery, P. C., M. P, Secretary of State for Dominion Affairs on the occasion of his visit to the Hume Reservoir on 2nd November 1927. This album is of local and national significance as it documents the planning and development of the Hume Reservoir up to 1927. It was the largest water reservoir in the British Empire. The album records the pioneering engineering work that went into its construction.DEPARTMENT OF PUBLIC WORKS, N.S.W. RIVER MURRAY WATERS SCHEME. HUME RESERVOIR. 37. Bethanga Bridge Site. A bridge is being built to cross the Reservoir to serve a large area of country which will be cut off from its natural outlets by the submergence of existing bridges when the Reservoir is in being. The site of the bridge is nearly a mile up the Murray from the Hume Reservoir Quarry. Its length will be approximately half a mile. There will be nine spans of 269 feet with steel truss girders resting on concrete pillars. Some of the pillars are founded on rock while others will rest on nests of reinforced concrete piles. The foundations and concrete piers are in the hands of the Victorian Constructing Authority and the superstructure in those of the New South Wales Authority. August 1927.hume reservoir australia, river murray waters scheme, hume reservoir construction

Taken between 1928 and 1930, depicted is the Bethanga Bridge under construction. The Bridge was completed in 1930 and was built to assist residents of the Bethanga district to travel to Albury. Other bridges would become submerged by the backed-up water of the Murray and Mitta Rivers so the Bethanga bridge was built two miles above the Mitta Weir. The Bethanga Bridge was built north of the future Hume Dam which would be completed in 1936. At 2430 feet long, Bethanga Bridge was the longest road bridge in Australia at the time of its completion. The Bridge is 20 feet wide and made up of nine 270 feet long spans. Materials used include ten tons of paint for the steel works; 1600 tons of steel; 900 tons of timber for the decking; and reinforced concrete for the piers. The tender for the construction was awarded to C. Ruwolt Pty. Ltd., engineers who were located on Victoria Street, West Richmond. The contract was awarded for £71,890. It was predicted between 250 and 300 men would find employment on the project. The news was well received by trade unions at the time as there had been a drop in available engineering work.This photograph is historically significant as it depicts the progress of the Bethanga Bridge construction, which was important infrastructure for the area. It is also a good example of methods used in the area to assist in travel over the river prior to the construction of the Hume Dam.Black and white rectangular photo printed on matte photographic paper.Reverse: 1997 3186 / 84-19-3 / This is the bridge. / It is not yet open to traffic / yet. will not be completed / until May next / It is a wonderful bridge the / pillars are 100 feet high. / KODAK PRINT Envelope Obverse: Peterson PHOTO / Hume Weir Envelope Reverse: BMM 84-20-1,2+3. bethanga bridge, lake hume, hume dam, hume weir, murray river, bridge, bethanga, albury

"GYMNASIUM OF NOVEL DESIGN TO BE LIGHTED FROM DOME Trafalgar Day (October 21) was selected as a fittlng occasion for the laying of the foundation stone of the "Norla" gymnasium In connection with the Missions to Seamen new building in Flinders street extension. The ceremony was performed by Lady Fraser. The design of the gymnasium is an entirely novel one. The building is of reinforced concrete, with a dome having a span of 40 feet. The design is based on that of the Pantheon at Rome, and like the Pantheon has no windows. The entire lighting is from an opening In the centre of the dome. Through this aperture the light radiates equally throughout tho gymnasium; and the necessary ventilation is also secured. Between the gymnasium and the main building there is an ambulatory 12ft. wide, from which onlookers may watch the games and exercises. The floor Is to be laid with a fall to the centre for rlnking purposes. The gymnasium will complete the buildings connected with the Missions to Seamen In Melbourne, and the claim Is made that the society has not anywhere a flner or more complete set of buildings than the seamen are favored with here. The ladies who take an active interest in the Mission are inviting subscriptions to furnish the gymnasium with trapeze, punch balls, and other exercising apparatus. Messrs Walter and Richard Butler are the architects."norla dome, lady fraser, 1919, foundation stone, walter richmond butler (1864–1949), richard butler, gymnasium, trafalgar day, simon fraser (1832-1919), pantheon

In 1978 Diamond Valley Shire recognised the need for a new public hall in Diamond Creek. Council considered the Bini shell form of construction which was in operation overseas and in use in New South Wales as libraries, gymnasiums, sports centres and multi-purpose centres. The Council gave the go-ahead. A site was chosen opposite the Hotel and close to the railway line. One day in - the following year, in 1979, activity stood still in Diamond Creek as school children and other excited spectators watched the one-hour inflation of the Bini Shell. This unusual method of construction was invented by Italian industrial designer and architect Dante Bini. The construction pneumatically raises a level of reinforced concrete from ground level which has not been set, using an internal balloon. The inner membrane inflates and compresses the mesh and concrete against the outer membrane. A net of flexible steel rods was laid on the building’s circular base, on the top of a fabric bladder. 300 tonnes of reinforced concrete were poured onto the mesh and a sealed cover laid over the concrete making a sandwich of cover, bladder and mesh. Compressed air was pumped into the bladder and the sandwich slowly began to rise and become a massive self-supporting dome. After inflation and removal of the outer membrane workmen filled in any holes. It was some days before pneumatic drills pecked out the first opening. The ceiling of the concrete dome was lined with fluffy insulating material. The dome was 36 metres in diameter at the base and 12 metres high in the centre with a usable floor space of 670 square metres. An opening night dinner was held to celebrate the new facility on March 12, 1980. Shire President Ron Pata made a speech and unveiled a plaque. It was the first public building in Victoria to be erected using the Bini Shell design method of construction The facility could cater for up to 400 people and in 1980 a fee for use was $100 for up to 200 people, $150 for up to 300 people and $200 for up to 400 people. For the next ten years or so, locals attended the hall for marital arts classes, basketball and netball games and school discoes and various other activities. After pieces of concrete fell off a Bini shell interstate due to a construction fault, the Council closed the centre. Demotion took place during the Diamond Creek Town Fair in 1991, as part of the annual Town Fair’s program. Research by L.P. Jan 2022This was the first public building in Victoria to be erected using the Bini Shell design method of construction.Colour photograph1991, diamond creek, bini shell, demolition, oval

In 1978 Diamond Valley Shire recognised the need for a new public hall in Diamond Creek. Council considered the Bini shell form of construction which was in operation overseas and in use in New South Wales as libraries, gymnasiums, sports centres and multi-purpose centres. The Council gave the go-ahead. A site was chosen opposite the Hotel and close to the railway line. One day in - the following year, in 1979, activity stood still in Diamond Creek as school children and other excited spectators watched the one-hour inflation of the Bini Shell. This unusual method of construction was invented by Italian industrial designer and architect Dante Bini. The construction pneumatically raises a level of reinforced concrete from ground level which has not been set, using an internal balloon. The inner membrane inflates and compresses the mesh and concrete against the outer membrane. A net of flexible steel rods was laid on the building’s circular base, on the top of a fabric bladder. 300 tonnes of reinforced concrete were poured onto the mesh and a sealed cover laid over the concrete making a sandwich of cover, bladder and mesh. Compressed air was pumped into the bladder and the sandwich slowly began to rise and become a massive self-supporting dome. After inflation and removal of the outer membrane workmen filled in any holes. It was some days before pneumatic drills pecked out the first opening. The ceiling of the concrete dome was lined with fluffy insulating material. The dome was 36 metres in diameter at the base and 12 metres high in the centre with a usable floor space of 670 square metres. An opening night dinner was held to celebrate the new facility on March 12, 1980. Shire President Ron Pata made a speech and unveiled a plaque. It was the first public building in Victoria to be erected using the Bini Shell design method of construction The facility could cater for up to 400 people and in 1980 a fee for use was $100 for up to 200 people, $150 for up to 300 people and $200 for up to 400 people. For the next ten years or so, locals attended the hall for marital arts classes, basketball and netball games and school discoes and various other activities. After pieces of concrete fell off a Bini shell interstate due to a construction fault, the Council closed the centre. Demotion took place during the Diamond Creek Town Fair in 1991, as part of the annual Town Fair’s program. Research by LP January 2022This was the first public building in Victoria to be erected using the Bini Shell design method of construction.Digital copy of colour photographfred mitchell collection, 1983, bini shell, diamond creek