East London manufacturing history 19th and 20th centuries

 

Docklands

The first decade of the nineteenth century saw an expansion in docks which would guarantee London's position as the world's trading city. The first was a West India Docks which had in addition to the docks themselves, warehouses all surrounded by a secure wall. The work was privately funded and financed by a 21 year monopoly of West Indies trade. They were located on the then marshy Isle of Dogs. Next came London Docks serving Europe and North America located in Wapping. Lastly the East India Company opened their walled and policed dock at Blackwall.

The East India docks speak of the vast international trade that poured through London and I am drawn to John Masefield’s poem Cargos which I quote at the start of How Britain Shaped the Manufacturing World. I also remember from childhood sailing from the docks on a banana boat bound for Tenerife.

We are still talking of ships made of wood and powered by sail for which London shipbuilders were rightly famous. Anthony Slaven in his book British Shipbuilding 1500-2010 suggests that eight major yards on the Thames were in the van in building iron hulled ships. These yards had the skills in shipbuilding but also engines. The 1860s were a boom time for London's yards with at one time as many as 27,000 people employed in shipbuilding. 1860 saw the first British ironclad, HMS Warrior, built by the Thames Ironworks, clad with armour by John Brown and armed with guns from Armstrongs. The boom came to a grinding halt as the Clyde, Tyne and Tees took over the lead largely because raw materials were close by and so vastly cheaper that those London shipbuilders had to buy in. I write in another blog piece of Henry Maudslay's influence on machine tools; his company Maudslay Son and Field were highly influential in steam power for ships. In Greenwich, John Penn owned the largest marine engine business in Britain.

In shipbuilding 1,700 worked in John Penn’s boiler works at Greenwich and many more at Wigham and Green’s yard at Blackwall.

Joseph Rank saw the vast quantity of grain imports coming through London docks and saw the opportunity for flour mills which he built by the river. These worked alongside huge warehouses and markets. London had cornered world trade, for example Australian wool was shipped to London for onward sale. The domination in trade was mirrored and amplified in banking and finance where London took an unassailable lead until 1914.

The docks needed expanding again, this time to fit the larger steam powered steel hulled ships and the Victoria and Albert docks were built.

The final expansion of the docks on the Thames can look to Tilbury docks in 1886 which provided a massive deep water dock east of the then docklands. Somewhat later Samuel Williams created a huge industrial development around Dagenham Dock. Tilbury would once again take the lead in 1967 in the move to containers which transformed the docks from a community ruled by dockers to an international business controlled by computers.

Woolwich

Woolwich was of course home to the Arsenal where some 75,000 worked in 1917 and I write of this and more in Ordnance and How Britain Shaped the Manufacturing World. At the start of the Crimean War an engineer, John Anderson, was appointed to undertake a major programme of modernisation and expansion. He introduced steam power into the Foundry and the Royal Carriage Factory. Similar building programmes and modernisation were undertaken at the Royal Small Arms Factory at Enfield, which had been set up after the Napoleonic Wars following bad experience with commercial suppliers, and the Royal Gunpowder Factory at Waltham Abbey. Another key appointment was made in 1854, when Frederick Abel took the office of Ordnance Chemist which had fallen into disuse in 1826. Under Abel, the technology of ammunition took major strides with Woolwich as a centre of excellence.

William Siemens was another major employer in Woolwich. As I write in How Britain Shaped the Manufacturing World, William was the British end of the German family and took on the manufacture of cables for telegraph. In time cables crossed the globe with Siemens purpose built ship The Faraday laying them. Siemens worked in partnership with steel rope makers, Newall & Company of Newcastle. This latter company became part of British Ropes which later changed its name to Bridon. Siemens factory became part of GEC but was closed by Arnold Weinstock attracting acrimony from the community and unions. The factory had also produced telephone equipment. As well as hand-sets, they supplied their first public automatic telephone exchange in Grimsby in September 1918 handling 1,300 lines. This was followed by exchanges in Stockport, Southampton and Swansea; in all some forty-three out of one hundred exchanges brought into service by the Post Office up to 1927. They also set up exchanges in Canada and Australia. Such was the demand that they took new space in Hartlepool and Spennymoor.

In the Second World War in order to protect the Clyde, Siemens were commissioned to supply not only the five miles long loop cable through which high currents would be passed to explode such mines, but to commission and build all the necessary switch-gear and power plant. They also supplied cables equipment for radar and line communications. They were of course the perfect company to produce a submarine cable which could contain petrol at high pressure for the PLUTO project. For the HAIS pipeline (Hartley, Anglo-Iranian, Siemens) cable of seventy miles in length was required and a whole new building had to be constructed to contain it. Elsewhere, lamp production became even more specialised for the war effort, and the research laboratories were kept busy with demands by the British Aircraft Establishment for specialist bulbs for aircraft signalling.

Shoreditch and Bethnal Green

The furniture trade continued stongly into the nineteenth century. Timber would be provided from local saw mills such as Lathams which prospered and is now a leading UK timber supplier. One or two larger establishments emerged. In the lead was Lebus, but Hille and others would follow. Herrmann was said to have the largest furniture business in Europe; they were also in New York. The Lusty family made Lloyd Loom furniture.

It was a mixed economy with some warehouses making space for manufacturing. West End retailers, like Maples, began to source their products from East End makers. The large hire purchase companies like Times and Great Universal Stores dealt with the warehouses and the larger makers. Mechanisation came with electricity and, with the establishment of the National Grid, larger makers took advantage of cheap land in the Lea Valley, leaving little furniture making in the East End. When Lebus moved they had 1,000 employees. They now manufacture in Scunthorpe. Hille, which employed two of Britain's most talented designers in plastic injection moulding, moved to Watford and now manufacture in Ebbw Vale. Meredew moved to Letchworth.

Barking, Silvertown, Dagenham and Shadwell

Barking had an unhappy start to industrialisation. In How Britain Shaped The Manufacturing World I wrote in the context of communication of the great stink, the Thames doubling up as a massive open sewer. The river attracted all sorts of industry and processes often highly polluting especially outside the county boundary where by-laws restricting offensive trades did not apply. In Barking this meant chemical and related industries. Barking's other problem was that the sewerage from north London carried by Bazalgette's new sewer emptied to the west of Barking creek, creating, along with market gardens (where some of the sewerage was used raw as fertiliser) and polluting industries, a massive public health problem. In time local authorities were established which could enforce regulations and act together to improve the environment with sewers but also railways and means of communication. J.B.Lawes discovered a method of making fertiliser from treated sewerage, thus overcoming the health hazards.

The coming of the railways opened up east London and Essex for development. Barking attracted the largest gas works in Britain and much later a massive coal fired power station. Handley Page’s first aeroplane was made in Barking. After the First World War a number of new companies opened factories: P.C. Henderson doors (subsequently relocated to County Durham and now part of the Finish ASSA Alloy company), A.F. Bulgin radios and Dicky Birds crackers and ice-cream. Abbey Match works became part of the British Match Corporation.

In the Second World War, Barking creek was used for building Mulberry Harbours; companies in the borough also produced chemicals, life jackets, wood craft including Mosquito aircraft, and steel drums.

The local authority built the largest council house estate at Becontree which leads on to....

Dagenham which became home to Ford UK which moved manufacture from its plant in Manchester; many employees from Manchester moved into the Becontree estate. The Dagenham plant was vast with its own furnaces for casting engine blocks. One of their paint suppliers, Lewis Berger, was at nearby Shadwell Heath (I remember well working on their audit in the seventies). Dagenham also had an industrial alcohol distillery run by the Distillers Company, a May & Baker factory and pharmaceutical research facility drawing employees also from the Becontree estate.

Whilst most manufacturing still took place in the home or in small workshops, Jerry White highlights some of the other larger factories. Silvertown had a factory employing 3,000 making tyres and footballs, and insulation from rubber. The company The India Rubber, Gutta Percha and Telegraph Works Company was bought by the American Goodrich who then sold it to British shareholders and it became the British Tyre and Rubber (BTR). The insulation was probably used by Siemens Brothers at Woolwich which employed 1,700 making cables. Rope making took place in Shadwell with Frost’s works being the largest in the world.

At the start of the twentieth century the Great Eastern Railway employed 3,100 at their Stratford works. The workshop was originally intended for repair, but went on to build locomotives. Their famous engineer James Holden built an early electric powered locomotive capable of reaching 30mph in 30 seconds. It never went into service for the rail infrastructure at the time was not up to the challenge.

Bryant &  May employed 1,400 in Bow making matches. Bow was also home to porcelain manufacturer Thomas Frye and Edward Lloyd's paper mill. The paper industry blossomed following the abolition of the newspaper stamp in 1855.

Plessey had their main factory was at Ilford and relocated during the war to Central Line Tube tunnels to escape enemy bombing. Ilford manufactured photographic film here. Britvic manufactured soft drinks in Beckton.

Further reading:

• Stephen Inwood, A History of London (London: Macmillan, 1998)

East London manufacturing history

 Writing of London in the Nineteenth Century, Jerry White remarks on the large proportion of the population – some 30% - who made things, countering a common belief that London was a place of commerce with local manufacturing restricted to small and niche workshops. This was largely the result of what had gone before. London as a port was fundamental.

Docklands

The Naval dockyard at Woolwich became the principal focus in the reign of Henry VIII and the building of Henri Grace a Dieu. Looking at the records of the Board of Ordnance, which supplied cannon, powder and cannon balls, there grew up substantial stores at Chatham, Tilbury and Sheerness and to a lesser extent Woolwich itself. I write below of the major role that Woolwich would take in the supply of the army. Significant naval stores were also held at Portsmouth and Plymouth. With the later expansion of empire, stores were located overseas at for example Gibraltar.

Alongside naval shipbuilding, commercial shipbuilding yards stretched east from Bermondsey. They provided the essential transport for adventurers and traders. East Indiamen made the long and challenging journey to the far east to bring back exotic cargoes. Nearer to home coal was brought by coastal ships from Newcastle. The yards were busy places and I wrote of them in How Britain Shaped the Manufacturing World.

At the end of the eighteenth century the pressure on the small area of 'legal' docks for commercial shipping was clearly grossly inadequate and expansion became urgent. I wrote of this in my page on Inner London for that was where the docks were.

As London grew, the banks of the Thames filled with manufacturing businesses attracted by the ease of receiving raw materials and dispatching finished goods. The docks would welcome ships arriving with cargoes from just about all over the world; ships too would leave with finished goods destined for lucrative overseas markets. The label ‘Made in London’ carried a cache the world over.

It had been and still was a busy and diversified place with saw-mills, lead-smelting, paint and varnish works, iron and brass foundries, chemicals works and ships stores, boiler makers works, chain and anchor works and sack, bag and canvas factories.

Woolwich

The Weald provided charcoal and iron ore for the production of all things metal, so guns in the environs of the Tower of London and at the Woolwich Arsenal, and cutlery before Sheffield bagged the lead in that trade. As to the manufacture of weapons, the casting of brass cannon had been carried out at Moorfields and before that on the Weald itself. In the first half of the eighteenth century there were built on the Woolwich site a foundry for casting guns, a Laboratory for making gunpowder and a workshop for gun carriages as well as extensive storage. Further development would follow in the end of the Napoleonic wars.

Shoreditch and Bethnal Green

Furniture making was to be found in Mayfair for the well-to-do and in the East End, using semi-skilled labour, for the rest of the market. Furniture skills were gathered together by companies like Gillow and Seddon. Once again, processes would be subdivided into different skill sets; in time mechanisation would make redundant much of the handicraft. The area around Shoreditch and the western end of Bethnal Green became in White’s words ‘something approaching one giant factory’.

A book titled Furnishing the World - The East London Furniture Trade 1830-1980 looks at this in more detail. The starting point was the growing population and house building, all of which drove demand for furniture. This was matched by an east end population which included Jewish immigrants skilled in carpentry and the availability of wood coming in through the growing docklands but also later along the Regents Canal which opened in 1820. The overwhelming majority of the furniture makers were small workshops selling mainly to wholesalers.

Further reading:

• Richard Tames, Barking Past (London: Historical Publications, 2002)
• Sue Curtis, Dagenham and Rainham Past (Chichester: Phillimore, 2000)
• Pat Kirkham, Rodney Mace and Julia Porter, Furnishing the World - The East London Furniture Trade 1830-1980 (London: Journeyman Press, 1987)

Belfast manufacturing history

 Ireland moved later than much of Britain away from a subsistence economy. The island as a whole was not rich in raw materials yet the climate was good for growing, spinning and weaving flax. At the beginning of the eighteenth century, Belfast ranked alongside towns such as Lisburn, Lurgan, Portadown, and Dungannon. In size, the city was similar to Derry and Newry. Linen was a cottage industry with a great number of spinners and weavers in Ulster but also in Leinster and Munster (which would become part of the Republic).

Linen was also made in England, but it was over-shadowed by that imported from continental European countries. The focus of English textiles was very much on wool and cotton. Ireland's linen industry was cottage based with exports flowing via dyers through Dublin. At the end of the seventeenth century the needs of British government finance for war led to increased duties on imports and, since linen was one of the biggest imports, it was a prime target. The knock on from this was the need to increase home production and Ireland was drawn in and given preferential access to the English market, then the biggest and fastest growing in Europe. In Belfast flax spinning and weaving gathered round the rivers Forth, Farset and Blackstaff and the mills they powered taking the place of what previously had been a cottage industry in the province.

The late eighteenth century also saw in Belfast the birth of the mechanised cotton industry. Cotton was the stuff of Lancashire, but the Irish climate was similar and the island had both labour and skills. The industry developed in East Ulster and also in the south in Waterford and in Dublin. Belfast was known for its fine fabrics, whereas the south produced the courser calicos. In the later nineteenth century Belfast took advantage of growing mechanisation to produce cheap muslins. Cotton reached its peak in the 1820s and a number of Belfast men notably Thomas Mulholland and John Hind decided to venture into mechanised flax spinning. Others followed. Linen came into it own once more when the shipping of cotton was blockaded in the American Civil War. With a market starved of cotton, what better than linen. In Belfast, spinning mills were busy and more were built. Handloom weavers moved closer to the spinners and still held the market for fine linen with coarser fabric being produced on power looms. In time these looms were improved and power looms were adopted widely with yet more mills built.

With the end of the war, cotton shipments resumed and Lancashire, adopting further mechanisation, once more undercut linen. To make matters worse international customers began to produce their own linen. The result of all this was the closure of mills and the removal of the remainder closer together in Belfast. Linen and cotton began to be processed alongside each other. Linen Union became popular as the addition of cotton made the fabric softer. The First World War increased demand for linen and the industry revived only to fall into terminal decline after a brief respite following the war.

Along with Dublin and Cork, Belfast was one of Ireland's sea ports and as the linen and cotton trades expanded so too did Belfast. Belfast was becoming increasing prosperous with developments in the textile industry. William Durgan, known in Ireland as the King of the Railways, saw the potential for growth, not only in railways, but also shipping and he undertook the digging out of the harbour. This made the docks perfect for shipbuilding, something seen clearly by Edward Harland and Gustav Wolff. This transformed Belfast in to Ireland's primary port. With shipping came shipbuilding which was also transformed mid century by the coming together of Harland and Wolff. It is worth mentioning, because it is a name that keeps appearing, that contracts with the Bibby Line were the lifeblood of the new company.

Harland & Wolff is surely the iconic image of Belfast. Anthony Slaven in his British Shipbuilding 1500-2010, praises the shipyard for its ability in the late nineteenth century to 'produce any type of vessel', having previously noted the specialisms of the other British shipbuilding areas. He does concede that the Northern Ireland yard was particularly known for its cargo liners and passenger liners. Later it was of course known as the birthplace of the Titanic but also her sister ships Olympic and Britannic. Alongside Harlands was Workman and Clark's yard founded in 1879.

Scottish born John Boyd Dunlop who, whilst living in Belfast, developed the pneumatic tyre which both greatly improved the comfort of riding a bicycle but also its speed.

Belfast played its part in the war effort in both world wars with ships and munitions and in the Second World War. Shorts of Rochester joined with Harland & Wolff in 1936 in a company known as Short & Harland and produced the Sunderland flyboat, and, from this design, the massive Stirling bomber. Production at Rochester became too vulnerable to air attack and so move to Belfast, with Austin also producing a good number. Some 2,375 were produced in all. After the war, some yards took advantage of opportunities to re-equip. Harland & Wolff took over welding shops provided by the government. Part of Shorts was bought by the American Spirit Aerosystems which in turn became part of Boeing. Another part of Shorts, then owned by Bombardier, entered into a venture with Thompson-CSF to develop the Shorts Missile System. Thompson-CSF changed its name to Thales and bought out Bombardier. Thales now manufacture ammunition in the city.

The Festival of Britain in 1951 shed light on Belfast and Northern Ireland highlighting its agriculture and linen industries. At that time manufacturing was concentrated on Belfast with some 58% of those employed in manufacturing working in the capital. It was by far the largest centre of population, some eight times that of Derry which came second with 50,000. It was primarily a manufacturing city with half the working population so employed in engineering and shipbuilding, textiles and clothing, food and drink. The Belfast Ropework Company had the largest rope making factory in the world.

Soft drinks producer Cantrell and Cochrane was founded in a shop in Belfast in 1852.

Government sponsored industrial development is important with industries established in the decade after the Second World War including aircraft (Short Brothers), precision engineering, rayon weaving, toy making and food processing.

The city welcomed investment from overseas, particularly the USA with Dow Chemicals. The DeLorean motor company set up production in 1978 but lasted only four years.

Belfast and Northern Ireland suffered from the 'troubles' - sectarian violence - which lasted until the Good Friday agreement was signed in 1998. Since then the province has prospered.

Further reading

• Anthony Slaven, British Shipbuilding 1500-2010 (Lancaster: Crucible, 2013)
• Emily Boyle and Robin Sweetnam in Belfast the Making of the City 1800-1914 (Belfast: Appletree Press, 1983)

Plymouth manufacturing history

 Set on the western approaches, Plymouth was in many ways Britain's door to the wider world. It was from Plymouth that so many of our adventurers sailed: Sir Francis Drake to the Pacific, the Pilgrim Fathers to America, James Cook to Australia and Charles Darwin to the Galapagos. I have written separately about our adventurers and explore in How Britain Shaped the Manufacturing World their role in the beginnings of the Industrial Revolution.

In the later seventeenth century the city became home to a Royal Dock known now as Devonport. The docks built many hundreds of ships and maintained the fleet. In the nineteenth century it was subject to a major extension to allow for larger ships, also the Royal William Victualling Yard was built. The Great Western Railway was linked to the docks. A regular domestic service to Brittany began. The Royal Dockyard in 1912 employed 12,000 civilians. The biggest vessel ever constructed in Devonport was the 30,600 ton Warspite launched in 1913.

Other industries arrived. Isaac Reckitt took over a Plymouth factory in 1905 and made Robin starch and washing powders. Bryant and May experimented making lucifer matches. Their factory burnt down and they moved to London to make Swan Vestas. Lever Brothers developed a presence in the city by buying soap companies.

War time bombing left Plymouth with gaping wounds and the great task of reconstruction began as early as 1942. Reckitts had been bombed and decided to concentrate their activity in Hull. Companies were encouraged to set up: C&J Clark, Slumberland mattresses and Browne & Sharpe machine tools arrived in the fifties. Tecalemit were in production by 1948 as were Berketex dress makers.

Plymouth attracted electronics companies. It is home to Plessey Semiconductors. Bush Television built a factory in Plymouth to expand on its west London premises. BAE Systems have a Systems and Equipment establishment in the city.

A good number of American owned companies have bases in Plymouth and work in life sciences, composites and other technologies. Mars Wrigley make gum in the original Wrigley factory. You can read more detail in this link to research carried out by students in Plymouth.

Burts Crisps was founded in 1999 by Richard and Linda Burt with premises in Kingsbridge. They moved to a bigger factory in Plymouth in 2006.

Kawasaki Precision Machinery has been making hydraulic equipment in Plymouth for 25 years.

The work of the former Royal Dockyard has now been passed to Babcock International at Devonport and Rosyth. Princess Yachts were founded in 1965 and manufacture high class yachts sailed the world over

Further reading:

Crispin Gill, Plymouth - A New History (Devon Books, 1993)

I wanted to explore British manufacturing history geographically, having looked at it chronologically and by sector in my books How Britain Shaped the Manufacturing World and Vehicles to Vaccines. 

Follow this link to a list of the places I have explored to date.

Medway towns manufacturing history

 Rochester was a cathedral city until local government changes caused the status to lapse on its joining the Medway unitary authority. Nevertheless, its cathedral is the seat of the Bishop of the Rochester Diocese dating back to the sixth century. Rochester boasts a castle whose keep is one of the best preserved in England or France. Rochester has been occupied by Romans, Saxons, Danes and Normans.

Chatham in contrast was a small village on the mud flats of the Medway not far from Rochester and close to Gillingham, Strood and Rainham. It was the mud that attracted naval use. Henry VIII had built the first substantial Royal Navy including the Mary Rose, the first purpose built warship. The Medway then came into its own since the ships could safely be beached and there have their hulls cleaned, caulked and tarred.

Elizabeth I added to the navy, galleys - ships with both sail and oars. These were stationed at Chatham where they could easily be maintained. The dockyard was already bigger than Portsmouth, Deptford and Woolwich and it maintained and improved on this position through the years of war with the Dutch. The yard attracted shipwrights, carpenters, sailmakers, smiths, sawyers, riggers and mast makers.

In the early seventeenth century a new dry dock was built along with mast docks, sail loft and rope house - the latter being 1,000 feet long, the length of the longest rope. The tactic for naval ships was simple, to be massively armed to wreak destruction at short range. The massive PRINCE was an exemplar of this ship type known as the First Rate with three gun decks. These early ships would be armed by cannon cast in iron works in the nearby Weald.

With the eighteenth century came another opponent - the French - and so the centre of gravity for the navy moved westward to Portsmouth and Plymouth. More than this, the theatre of naval warfare moved from the sea between Britain and the Continent to the oceans: the Mediterranean, Caribbean and Atlantic. The ships required for this more open warfare needed to be more agile and so tended to be Third Rate with seventy-four guns or frigates with thirty-two guns. In the course of the century the Royal Navy moved to a position of increasing strength where victory was always expected. This was great credit to the men who sailed the ships and lived in the most appalling conditions, but also to the dockyards.

For Chatham, the eighteenth century meant first completion of the improvement programme, but then decline as resources were directed to Portsmouth and Plymouth. The century ended with restoration ready for the next great conflict: the Napoleonic Wars. At the end of the eighteenth century the Chatham dockyard was the largest employer in the South East with some 2,000 men.

The navy's most famous ship, the VICTORY, was built at Chatham in 1765 and had a chequered career culminating in her being fitted out as a hospital ship in 1797. Two years later she was to be converted into a prison hulk. Instead, orders were given for her to be rebuilt and she left Chatham in 1800 as a superb fighting First Rate ship. These vast ships were built from four thousand oak trees with a compliment of 850 men. The lower of three gun decks was equipped with 42-pounders, the middle deck with 24-pounders and the top deck with 12-pounders giving a broadside of 1,176 pounds. Iron guns were most likely now cast at the Carron works in Falkirk with brass cannon made by Samuel Walker in Rotherham.

The nineteenth century saw reduced employee numbers with the ending of hostilities, but also the introduction of industrial process with a steam-powered sawmill designed and built by Marc Brunel. This incorporated a canal and and overhead rail system, with seasoned uncut timber entering at one end with sawn planks emerging at the other. I wrote in my blog on Portsmouth of Brunel's other inistiative of mechanising the process of pulley production.

The new century also saw the beginning of a dramatic change with steam power taking over from wind and sail. I write in How Britain Shaped the Manufacturing World of the transition from wooden hulls through iron clads to iron and then steel hulled ships. Mid-century saw a major investment in Chatham as it became the only eastern yard with the closure of Woolwich (although its continuance as the army's arsenal) and of Deptford. The work was substantial with new dry and wet docks, repair and fitting out basins all demanding some 110 million bricks made on site from a 21 acre brickfield. As the century drew to a close, ships became ever bigger culminating in the Dreadnaught Class which was too big either to be built or repaired at Chatham.

Her days seemed to be numbered until the Navy decided that they needed to build the newly invented submarines alongside private contractors not least to test their costings. The yard went on to build many submarines alongside Vickers at Barrow. In the Second World War it built smaller surface vessels and refitted a great many vessels of all kinds. At its peak the yard employed 13,000 people from Chatham, Rochester, Gillingham and Strood, and further afield.

The dockyard closed in 1981.

Rochester itself became home to Short Brothers which from 1913 manufactured flying boats or float planes was they were called at their factory at the Borstal end of the city. Their planes served with distinction during the First World War. Shorts survived the slump of the twenties by diversifying into buses, barges and motor boats. They came back into the limelight with the Shorts Singapore which in 1927 made a spectacular flight around the coast of Africa. The thirties saw the Shorts Empire operated by Imperial Airways and offering their 24 passengers a choice of cabins, births and a smoking room. From the design of the Empire came the Sunderland with innovations including a powered gun turret. Many saw service during the Second World War as did the Stirling four engine bomber of which I wrote in my book MacRoberts Reply. In 1943 the company was compulsorily purchased by the government and production dispersed to Belfast away from enemy bombing. With the return of peace, the company moved its operations to Belfast.

BAE Systems Faraday test centre and Advanced Aerospace Technologies are now based in Rochester.

In the nineteenth century Strood became home to Stewart Brothers and Spencer which extracted oil from seeds and sold the residue as cattle feed. Seeds would come by ships from as far afield as India, America and Russia.

Aveling and Porter manufactured agricultural machinery and went on to manufacture steam engines. In the thirties they became part of Agricultural Engineering and joined Barford & Perkins of Peterborough to form Aveling Barford which also took the Hornsby steam and road roller business based in Grantham.

Wingets took the Aveling site to manufacture cement mixers. Strood had attracted cement manufacturers like many sites on the Thames and Medway. Portland cement had become an essential part of building in the mid-nineteenth century. I write more about this in my piece on Dartford.

Gillingham had a history of textile manufacture with the Gillingham Silk Company in business from 1769 to 1875. There was also linen manufacture and glove making. The Copperas Works produced dyes and inks. In the late 19th century the Brennan Torpedo works was established.

Gillingham is also headquarters of Delphi Automotive Systems which had been spun out of General Motors and included AC Delco, Automotive Products of Leamington and Lucas Diesel Systems based in Gillingham. It was bought by BorgWarner which spun it into PHINIA.

Further reading:

• Philip MacDougall, The Book of Medway (Buckingham: Barracuda Books, 1989)
• Philip MacDougall, The Chatham Dockyard Story (Rochester: Rochester Press, 1981)
• https://www.worldcementassociation.org/about-cement/our-history

Southampton manufacturing history

 Southampton was one of the great English ports first identified as so used in Roman times. The port was later ravaged by the Vikings. Henry V, having won the battle of Agincourt, set about building a navy to defeat the French. His largest ship the Grace Dieu was built in Southampton. The port grew as the benefit of Agincourt flowed in terms of comparative peace and the taking of Normandy. With the shift in opponents from Spain to France, Portsmouth became the primary naval port and Southampton was called upon to supplement its ship building resources as needed. It later prospered with yards for smaller ships and yachts.

Southampton as a port thrived with deliveries of coal from the Tyne. In time it added imports and exports to and from the empire. The nearby oil refinery at Fawley is run by Esso. It has long handled imports of timber and chemicals.

The city is now forever associated with ocean going liners taking their mix of passengers to the new world. We can think of the Titanic, but many more. The Southampton story started much smaller, although P&O made the port its home from the early nineteenth century. It was the years following Waterloo and the defeat of Napoleon that the peaceful and pleasurable use of the sea took off. Steam was fundamental and it was smaller steam packets that busied themselves in the Solent crossing to the Isle of Wight and taking trippers round the island. Bigger vessels also made regular trips to the Channel Islands. The coming of the railway in 1840 opened up Southampton to the growing London population and steam packets prospered. It was then that Southampton really featured in trans Atlantic travel, although the Thames still held on to much passenger and freight business. P&O moved back to London, but Cunard White Star took its place in Southampton. In the 1930s P&O moved back to Southampton.

The Chiswick based shipbuilding company owned by John Thornycroft moved to Woolston Southampton in 1900 and continued their manufacture of specialist naval vessels in the yard built by T.L. Oswald of Sunderland in 1870. During the Second World War they built seventeen destroyers, torpedo boats, mine sweepers and landing-craft and numerous other craft. In 1968 they amalgamated with Gosport-based Vospers to form Vosper Thornycroft. Harland & Wolff had a ship repair operation in Southampton from 1907 until 1973 when it was sold to Vosper Thornycroft. The ship building activity of the company is now part of BAE Systems Maritime based in Portsmouth.

Ship building also focused on yachts. Camper and Nicholson, founded at Gosport, but with a yard in Southampton, built Gypsy Moth IV for Sir Francis Chichester for his single handed journey around the globe. Oyster at Hythe and also Wroxham in Norfolk build and manage super yachts. Moody founded in Swanwick in 1827 made world class yachts until 2007 when the company was sold to the German Hanse Yachts.

The city became home to aircraft manufacture at the time when take off and landing on the sea was seen as more convenient than building land based air-ports. The company that championed this just outside Southampton was Pemberton-Billing Ltd, later named Supermarine and later still bought by Vickers. My mother included in her diaries (transcribed in my book Dunkirk to D Day) her account of travelling in a flying boat in the Second World War.

At Woolston, Supermarine in the thirties designed Spitfires and built their fuselages, the remainder being subcontracted to other aircraft manufacturers around the country. Avro had built aircraft at Hamble in the First World War. The site was subsequently used by Hawker Siddeley Aviation for their advanced training aircraft.

In electronics, Phillips (formerly Mullard) made integrated circuits in their Southampton factory. BAE Systems manufacture radar with its Digital Intelligence unit on the Isle of Wight and Combat Management Systems at Portsmouth. They were building on the legacy of Marconi whose experiments on the Solent resulted in wireless radio as I wrote in How Britain Shaped the Manufacturing World.

Southampton has been the recipient of inward investment from Pirelli with their cable works, Goodyear Tyres, Ford Motor Company, IBM, Apple and GE of America. BAT has made cigarettes in Southampton since 1912, but now the focus has shifted to non-combustible nicotine products.

As elsewhere, Southampton major employers are now in the service industries

Further reading:

A. Temple Patterson, Southampton - a biography (London: Macmillan, 1970)

Portsmouth manufacturing history

 Portsmouth was one of the earliest homes of naval shipbuilding; there is some evidence that Richard the Lionheart's ships taking him on the crusades were built there. Henry VII commissioned the first dry dock in 1495. The Mary Rose was built there as Henry VIII amassed galleons to keep up with the Spanish and Portuguese.

It wasn't only naval shipping, Portsmouth's ships travelled the globe with particular emphasis on trading in spices so much so that a part of the dock area became known as spice island.

Towns which were home to naval dockyards boomed in times of war, but when peace came so did unemployment and poverty. Yet war was never far away, especially with the French who posed a constant threat. In the years following the restoration of the monarchy, in 1665 Sir Bernard de Gomme, Engineer in Chief of all the King's castles reviewed coastal defences and began a fifty year programme in Portsmouth for the defence of the crucially important dockyard. In spite of all this civil engineering, shipbuilding continued notably with the 100 gun Britannia.

Naval harbours were also changing as a result of penal policy. The number of offences punishable by transportation increased with convict numbers beyond the capacity of penal colonies and so prison hulks became a feature in many harbours over filled with inmates in appalling conditions. The first fleet for Australia left in 1787 and began to relieve the pressure just in time to the renewed pressure of war from the French Republic.

Portsmouth, at the time of the Napoleonic wars, was home to naval shipbuilding on a massive scale. There were woodworking shops powered by steam, including engines from Boulton and Watt. Marc Isambard Brunel invented machines for making the thousands of pulley blocks that the navy needed. He collaborated with Henry Maudslay who made the machine tools required. It was a huge enterprise that dominated the town. It was the first example of mass production in Britain.

We need to take a step back to understand what was happening. Naval shipbuilding was an ancient trade in which old habits died hard. Sawyers were protective of their back breaking work in the saw pit even though in other countries water powered sawmills were gaining popularity. Small businesses supplying largely hand made pulley blocks were equally protective of their lucrative contracts. The navy's demands were huge and change was needed. The right man at the right time was Samuel Bentham, the brother of the political economist and prison reformer Jeremy Bentham. Samuel was put in charge of the dock yard and set about radical changes.

1840 saw the French employ steam power for their battleships and Portsmouth needed to follow suite. A separate area was set aside and the necessary skills recruited. I write in How Britain Shaped the Manufacturing World of the transition to iron and steel hulls propelled by steam power.

With the navy and military the overwhelmingly dominant employer, its importance is underlined by the growth in population from 30,000 in 1801 to 260,000 in 1931.

Portsmouth docks served the Royal Navy in two world wars. In 1905 the yard launched the Dreadnaught which rendered obsolete the capital ships of the world's navies. It went on to launch one of the largest ships ever built in Portsmouth at 27,500 tons the Queen Elizabeth and the 25,000 ton Iron Duke in 1914. In recent years the building and maintenance of naval ships has fallen more and more to the private sector in companies such as Babcock International and BAE Systems Marine.

Employment in naval activity declined from some 22,000 in 1945 to 6,500 in 1985. Nevertheless, Portsmouth has attracted other major employers. Top of the list must come IBM with their UK Headquarters but followed by the Inland Revenue computer centre, the Board of Trade and Zurich Insurance.

Further reading:

James Cramer, The Book of Portsmouth (Buckingham: Barracuda Books, 1985)

Sunderland manufacturing history

As a port on the Wear, Sunderland grew from handling exports of coal from the Northumberland coal field. Coal went to London and the southwest as well as over the North Sea.

Along with coal, two related industries can be traced back to before the industrial revolution: glass making and pottery. These industries were present elsewhere in the northeast and indeed elsewhere in the UK. Glass was for bottles, for windows and tableware and, as the urban areas grew and prosperity spread from the fruits of industry, so the demand for all three types of glass grew. Sunderland's Wear Glassworks became a producer of national importance. Pottery tended to be earthenware for general use and was some glass tableware. However, Wear Flint Glass could boast the Marquess of Londonderry among its customers.

Like many coastal towns, Sunderland had a long history in shipbuilding and, alongside this, rope making was significant in the town. Ropes were also needed for railways where trucks were pulled along by static steam engines. Webster's rope works at Depford boasted the first machine-made rope in the country.

For shipbuilding, we can look to Austin and Pickersgill, Doxfords, J.L. Thompson and Sir James Laing & Son. In early days it was wood and sail, in particular keels to bring coal from the mines to the waiting colliers. The use of iron and steel and the advent of the steam engine enabled Sunderland's shipbuilding to boom in the mid nineteenth century making it one of the prime shipbuilding ports on the world. Decline followed boom and, with the exception of busy wars and short periods of catch up after the wars, the days of large scale shipbuilding on the Wear were numbered. I write in Vehicles to Vaccines of the last gasp with the combination into North East Shipbuilders Limited.

Sunderland was very far from lost, for Nissan chose to build its British motor car factory near to the town and this continues to prosper.

Further reading:

• Glen Lyndon Dodds, A History of Sunderland (Sunderland: Albion Press, 1995)
• Anthony Slaven, British Shipbuilding 1500-2010 (Lancaster: Crucible, 2013)
• How Britain Shaped the Manufacturing World
• Vehicles to Vaccines