manufactured aggregate - definitie. Wat is manufactured aggregate
Diclib.com
Woordenboek ChatGPT
Voer een woord of zin in in een taal naar keuze 👆
Taal:

Vertaling en analyse van woorden door kunstmatige intelligentie ChatGPT

Op deze pagina kunt u een gedetailleerde analyse krijgen van een woord of zin, geproduceerd met behulp van de beste kunstmatige intelligentietechnologie tot nu toe:

  • hoe het woord wordt gebruikt
  • gebruiksfrequentie
  • het wordt vaker gebruikt in mondelinge of schriftelijke toespraken
  • opties voor woordvertaling
  • Gebruiksvoorbeelden (meerdere zinnen met vertaling)
  • etymologie

Wat (wie) is manufactured aggregate - definitie

BROAD CATEGORY OF COARSE PARTICULATE MATERIAL USED IN CONSTRUCTION
Construction Aggregate; Coarse aggregate; Construction aggregates; Aggregate concrete; Recycled construction aggregate

History of manufactured fuel gases         
  • ''A Peep at the Gas-lights in Pall Mall'': A contemporary caricature of Winsor's lighting of Pall Mall, by George Rowlandson (1809)
  • Alessandro Volta
  • Annular Air Cooled Condenser
  • Battery Air Cooled Condenser
  • Colman "Cyclone" Separator
  • thumb
  • A coloured plate of a gas plant from [[Frederick Accum]]'s ''A Practical Treatise on Gas-light'' (1815)
  • Horizontal Air Cooled Condenser
  • Horizontal retorts with a stoking machine
  • Cross section of a hydraulic main (1909)
  • Bubbling Washer for Ammonia Removal
  • Isometric view of a regenerative retort bench (1921)
  • Single Lift Gasholder
  • Philippe LeBon
  • Horizontal view of a retort and furnace (1819)
  • Telescoping Gasholder
  • Water Cooled Tubular Condensers
  • Water Tube Condenser
  • Vertical Air Cooled Condenser
  • William Murdock
ASPECT OF HISTORY
Illuminating gas; History of manufactured gas; History of gaseous fuel
The history of gaseous fuel, important for lighting, heating, and cooking purposes throughout most of the 19th century and the first half of the 20th century, began with the development of analytical and pneumatic chemistry in the 18th century. The manufacturing process for "synthetic fuel gases" (also known as "manufactured fuel gas", "manufactured gas" or simply "gas") typically consisted of the gasification of combustible materials, usually coal, but also wood and oil.
Aggregate function         
TYPE OF FUNCTION IN DATABASE MANAGEMENT
Aggregation functions; Decomposable aggregation function; Aggregation function; Aggregation Functions; Aggregate functions
In database management, an aggregate function or aggregation function is a function where the values of multiple rows are grouped together to form a single summary value.
Aggregat         
  • [[V-2 rocket]] in Blizna
  • V-2 missile]] being launched in June 1943
  • [[V-2 rocket]] being recovered from the [[Bug River]] near Sarnaki
SET OF BALLISTIC MISSILE DESIGNS DEVELOPED IN 1933–45
A4b; A3 (rocket); A6 (rocket); A10 (rocket); A1 (rocket); A7 (rocket); A8 (rocket); A11 (rocket); A12 (rocket); A5 (rocket); A9 (rocket); A2 (rocket); Aggregate 1; Amerika-Rakete; America rocket; A1 rocket; Aggregate series; Aggregate 3; Aggregate 5; A4-SLBM; Japan Rakete; Projekt Amerika; Aggregate 2; Aggregate 6; Aggregate 7; Aggregate 8; Aggregate 9; Aggregate 10; Aggregate 11; Aggregate 12; Aggregate 4-SLBM; Aggregate 4b; Aggregate 4 Submarine-launched Ballistic Missile; Aggregate (rocket family); Aggregate Series; Aggregat (rocket family); Max and Moritz (rockets)
The Aggregat series (German for "Aggregate") was a set of ballistic missile designs developed in 1933–1945 by a research program of Nazi Germany's Armed Forces (Wehrmacht). Its greatest success was the A4, more commonly known as the V-2.

Wikipedia

Construction aggregate

Construction aggregate, or simply aggregate, is a broad category of coarse- to medium-grained particulate material used in construction, including sand, gravel, crushed stone, slag, recycled concrete and geosynthetic aggregates. Aggregates are the most mined materials in the world. Aggregates are a component of composite materials such as concrete and asphalt; the aggregate serves as reinforcement to add strength to the overall composite material. Due to the relatively high hydraulic conductivity value as compared to most soils, aggregates are widely used in drainage applications such as foundation and French drains, septic drain fields, retaining wall drains, and roadside edge drains. Aggregates are also used as base material under foundations, roads, and railroads. In other words, aggregates are used as a stable foundation or road/rail base with predictable, uniform properties (e.g. to help prevent differential settling under the road or building), or as a low-cost extender that binds with more expensive cement or asphalt to form concrete. Although most kinds of aggregate require a form of binding agent, there are types of self-binding aggregate which do not require any form of binding agent.

In Europe, sizing ranges are specified as d/D, where the d shows the smallest and D shows the largest square mesh grating that the particles can pass. Application-specific preferred sizings are covered in European Standard EN 13043 for road construction, EN 13383 for larger armour stone, EN 12620 for concrete aggregate, EN 13242 for base layers of road construction, and EN 13450 for railway ballast.

The American Society for Testing and Materials publishes an exhaustive listing of specifications including ASTM D 692 and ASTM D 1073 for various construction aggregate products, which, by their individual design, are suitable for specific construction purposes. These products include specific types of coarse and fine aggregate designed for such uses as additives to asphalt and concrete mixes, as well as other construction uses. State transportation departments further refine aggregate material specifications in order to tailor aggregate use to the needs and available supply in their particular locations.

Sources for these basic materials can be grouped into three main areas: mining of mineral aggregate deposits, including sand, gravel, and stone; use of waste slag from the manufacture of iron and steel; and recycling of concrete, which is itself chiefly manufactured from mineral aggregates. In addition, there are some (minor) materials that are used as specialty lightweight aggregates: clay, pumice, perlite, and vermiculite.