1 Foundry: 4 Paths to melt quality.Deoxidation deoxidation the removal of oxygen from a chemical compound. and gas removal is of vital importance in the production of defect-free steel castings. AG Anderson Ltd., a 100-employee jobbing foundry in London, Ontario, Canada, has focused on determining the cause of gas porosity Abstract Determining the true porosity of a gas filled formation has always been a problem. While gas is a hydrocarbon, similar to oil, the physical properties of the fluids are very different, making it very hard to correctly quantify the total amount of gas in a formation. in its steel castings and then reducing it. The foundry, which produces corrosion-resistant, heat-resistant, carbon- and low-alloy steel and corrosion-, wear-and abrasion-resistant iron castings ranging between 2-4500 lb, was experiencing steel casting inclusions in excess of the industry average. Being new to high volume steel casting production, the foundry knew it had to solve its gas problems to remain competitive. Melting At AG Anderson, melting is performed in three medium frequency induction furnaces with capacities of 600, 2500 and 4000 lb. A spinel spinel, magnesium aluminum oxide, MgAl2O4, a mineral crystallizing in the isometric system, usually as octahedrons. It occurs as an accessory mineral in basic igneous rocks, in aluminum-rich metamorphic rocks, and in contact-metamorphosed bond fused alumina-based refractory is used for lining the three furnaces The Three Furnaces of China () refers to the especially hot summer weather in several major cities in the People's Republic of China:
 `mĭnə) or aluminum oxide, Al2O3, chemical compound with m.p. about 2,000°C; and sp. gr. about 4.0. ([Al.sub.2][O.sub.3]) and 10% magnesium oxide magnesium oxide: see magnesia. . Because of the wear and
tear, each furnace is completely relined every 65-75 heats.Pouring is performed using lip pour ladles ranging from 600-4000 lb. Ladles are lined with fused alumina-based castable refractory materials. Teapot and pre-cast disposable ladles also are employed. Charges consist of 40-60% foundry returns with the balance made up of low carbon iron or 1010 steel, ferroalloys and deoxidizers. All foundry-generated returns are color coded and segregated, while purchased scrap is not used in recipes. To avoid contamination from unwanted elements, a wash heat of medium carbon steel always is employed when switching from melting iron to stainless steel stainless steel: see steel. stainless steel Any of a family of alloy steels usually containing 10–30% chromium. The presence of chromium, together with low carbon content, gives remarkable resistance to corrosion and heat. or when switching from melting stainless steel to ductile iron Ductile iron, also called ductile cast iron or nodular cast iron, is a type of cast iron invented in 1943 by Keith Millis[1]. While most varieties of cast iron are brittle, ductile iron is much more ductile, as the name implies. . Ladles also are washed following the same principle. As it cast steel in the early 90s, AG Anderson experienced defect problems in its carbon and low alloy components that required extensive rework time. The high number of upgrade hours combined with the number of castings unable to successfully pass nondestructive testing Nondestructive testing (NDT), also called nondestructive evaluation (NDE) and nondestructive inspection (NDI), is testing that does not destroy the test object. NDE is vital for constructing and maintaining all types of components and structures. prompted a study. Beginning in 1997, the foundry observed and addressed potential gas sources, including: * inefficient deoxidation; * hydrogen absorption during processing of steel; * nitrogen absorption from the furnace atmosphere during melting and superheating
In physics, superheating (sometimes referred to as boiling retardation, or boiling delay ; * entrapped air. As it examined these gas sources, the foundry developed methods to reduce their prevalence, thereby improving the steel melt quality. The following discusses these sources and the methods used to decrease them. Inefficient Deoxidation Oxygen dissolved in the steel reacts with carbon and produces carbon monoxide carbon monoxide, chemical compound, CO, a colorless, odorless, tasteless, extremely poisonous gas that is less dense than air under ordinary conditions. It is very slightly soluble in water and burns in air with a characteristic blue flame, producing carbon dioxide; (CO). The reaction is usually responsible for gas porosity defects (pinholes or blowholes) in steels insufficiently or inefficiently deoxidized. The usual method to reduce the oxygen content is the addition of a final deoxidizer de·ox·i·dize tr.v. de·ox·i·dized, de·ox·i·diz·ing, de·ox·i·diz·es To remove oxygen from (a compound); reduce. de·ox that has a greater affinity for oxygen than carbon, and that forms a solid or liquid oxide product. In the steel casting industry, aluminum is universally used as a final deoxidizer. The deoxidation products are [Al.sub.2][O.sub.3] and hercynite ([FeO-[Al.sub.2][O.sub.3]). AG Anderson experimented with adding different quantities of aluminum to its carbon and low alloy steel Low alloy steel is steel alloyed with other elements, usually molybdenum, manganese, chromium, vanadium, silicon, boron or nickel, in amounts of up to 10% by weight to improve the hardenability of thick sections. melt and determined that the optimum aluminum addition to eliminate gas problems would be 0.07-0.09%. However, this range caused undesired outcomes such as filter blocking, ductility ductility, ability of a metal to plastically deform without breaking or fracturing, with the cohesion between the molecules remaining sufficient to hold them together (see adhesion and cohesion). Ductility is important in wire drawing and sheet stamping. loss and aluminum nitride embrittlement Embrittlement A general set of phenomena whereby materials suffer a marked decrease in their ability to deform (loss of ductility) or in their ability to absorb energy during fracture (loss of toughness), with little change in other mechanical properties, such . Aluminum additions of 0.04-0.06% eliminated filter clogging problems but were inefficient because inclusions were still present in the castings. The foundry focused on eliminating the problems caused by higher aluminum additions so that a higher concentrated final deoxidizer could be used. Filter blocking--As a common practice at AG Anderson, all steels are filtered using 10 pore/in. ceramic foam Ceramic foam is a tough, plastic-like foam made from ceramics. It is similar to Kevlar.The foam is made of aluminum oxide, a common high-temperature ceramic, but gets its extraordinary insulating powers from the many tiny air bubbles within the material. filters. Each filter is characterized by a specific filter blockage factor (FBF FBF Forearm Blood Flow FBF Frankfurt Book Fair FBF Feedback Form FBF Frame by Frame (animation technique) FBF FleetBoston Financial Corporation (stock symbol) FBF Fundamental Baptist Fellowship ) measured in lb of metal (capable of being filtered before filter seizing) per sq in. of filter. In the case of aluminum-final-deoxidized steels, the filter blockage factor is dramatically reduced because aluminum and oxygen form solid [Al.sub.2][O.sub.3]. Solid [Al.sub.2][O.sub.3] agglomerates the filter pores and significantly reduces the FBF. Filter blockage causes two problems: it may prevent the metal from entering the mold, thus generating an incomplete casting, and it also can cause filter breakage. As the filter starts clogging, the metallostatic pressure on one side of the filter increases and, as a result, the filter collapses and parts of it enter the mold cavity. AG Anderson carried out extensive projects using trial and error methods to determine the FBF for aluminum deoxidized. The results were compared with the filter manufacturer ratings and recommendations. The foundry discovered that additions of aluminum in excess of 0.05% reduce the FBF of ceramic filters from 25 to as low as 5 lb/sq in. The study determined that to increase the FBF, the amount of aluminum used for deoxidation must be drastically reduced. In this case, an additional final deoxidizer was needed. A combination of 0.05% titanium and 0.02% aluminum increased the FBF to 45 lb/sq in. At the same time, the foundry noticed that the amount of gas porosity-related defects was reduced significantly. The 0.05% titanium and 0.02% aluminum combination was used as a final deoxidizer, and then gradually aluminum was excluded completely. From this study, AG Anderson developed filter sizing guidelines for aluminum and titanium deoxidized carbon and low alloy steels (Table 1). Loss of ductility--The foundry noticed that a large number of test bars containing the higher aluminum content were failing elongation tests. Once the foundry switched to titanium as its final deoxidizer, the tensile and yield strength and elongation measurements improved, eliminating this problem. Aluminum nitride embrittlement--Even though in most cases the problem is limited to quench-and-tempered, high strength steels, AG Anderson occasionally noticed "rock candy rock candy n. A hard confection that is made by cooling a concentrated sugar syrup into large clear crystals around a piece of string or a stick. Noun 1. " fractures in its carbon steel castings. Increased aluminum additions created this rock candy cracking through aluminum nitride precipitation. Aluminum nitrides precipitate in proportion to the aluminum and nitrogen contents, and in inverse proportion an equality between a direct ratio and a reciprocal ratio; thus, See also: Inverse The occurrence was more obvious when exothermic exothermic /exo·ther·mic/ (-ther´mik) marked or accompanied by evolution of heat; liberating heat or energy. ex·o·ther·mic or ex·o·ther·mal adj. 1. riser sleeves were used. The foundry believed that alumina-containing exothermic sleeves increased the aluminum level in the riser metal. Aluminum levels in the riser metal in excess of 0.08% when combined with nitrogen levels in excess of 0.004% were believed to be the cause of hairline hair·line n. The outline of the growth of hair on the head, especially across the front. rock candy cracks that developed under the riser and were noticed after the final temper. AG Anderson adjusted nitrogen levels by adding titanium. The product of this reaction titanium nitride, has a less detrimental effect on steels than aluminum nitride because it doesn't facilitate the formation of rock candy cracks, which aluminum nitride does. Hydrogen Absorption AG Anderson also experienced gas stemming from moisture and hydrocarbons present in the furnace atmosphere and mold coatings and binders. Water vapor in molten steel dissolves to form hydrogen and oxygen. A number of conditions are responsible for the absorption of hydrogen leading to pinhole formation. During melting and refining, hydrogen absorption can occur as a result of: * hydrogen induced into the charge by wet, rusty or oily returns; * water vapor formed by wet refractory materials; * wet ferroalloy ferroalloy Alloy of iron (less than 50%) and one or more other metals, important as a source of various metallic elements in the production of alloy steels. The principal ferroalloys are ferromanganese, ferrochromium, ferromolybdenum, ferrotitanium, ferrovanadium, additions; * holding of heats in the furnace after final deoxidizers have been added; * humidity of the furnace atmosphere due to the weather. The only method to drive hydrogen from the melt is carbon boil. The CO bubbles escaping from the bath act as a carrier of the hydrogen. In the case of induction steelmaking, however, carbon boil is not a practical option because the coil around the furnace does not allow for a porous plug to introduce gases. As a result, no hydrogen removal can be performed at this stage. Rather, an effort must be made to produce steel with low hydrogen content by using dry charge materials. Realizing this, AG Anderson adopted inside storage of its charge material. The foundry also has concentrated on faster melting and avoiding extended exposure of bare liquid steel to humidity. In addition, hydrogen absorption is decreased by ensuring that the furnace spout and ladle refractories are properly dried. Nitrogen Absorption Nitrogen as gas in the atmosphere and charge materials are the only sources of nitrogen in the induction furnace melting of steels. The rate of nitrogen pickup is relatively slow as compared to oxygen and hydrogen, but high levels of dissolved nitrogen in steels can cause gas porosity and aluminum nitride embrittlement. Carbon boil is the only method of nitrogen removal commonly employed by the electric arc furnace An electric arc furnace (EAF) is a furnace that heats charged material by means of an electric arc. Arc furnaces range in size from small units of approximately one ton capacity (used in foundries for producing cast iron products) up to about 400 ton units used for secondary steelmaker. As is the case with hydrogen, when melting takes place in an induction furnace, nitrogen cannot be removed from the bath via carbon boil. To produce steel with low nitrogen content in an induction furnace, AG Anderson considers the following factors: * charge materials. Purchased charge materials (including ferroalloys) must be of low nitrogen content; * foundry returns. The use of foundry returns that already contain small amounts of nitrogen must be limited to 50-60%; * charge chemistry. Adding silicon to the charge early in the steelmaking process forms a protective slag. At AG Anderson, 75% of the total ferrosilicon fer·ro·sil·i·con n. An alloy of iron and silicon used in the production of carbon steel. required by the recipe is added with the initial charge; * melting and refining. Nitrogen is introduced when bare molten metal is exposed to the atmosphere. To reduce nitrogen absorption, exposure times must be reduced to a minimum. Whenever practical, bath protection via argon argon (är`gŏn) [Gr.,=inert], gaseous chemical element; symbol Ar; at. no. 18; at. wt. 39.948; m.p. −189.2°C;; b.p. −185.7°C;; density 1.784 grams per liter at STP; valence 0. blanketing must be performed; * tapping and pouring. The transfer stream must be as laminar laminar /lam·i·nar/ (lam´i-nar) 1. pertaining to a lamina or laminae. 2. laminated. 3. of, pertaining to, or being a streamlined, smooth fluid flow. as possible. Entrapped Air AG Anderson found that uncontrolled, turbulent metal flow causes air entrapment entrapment, in law, the instigation of a crime in the attempt to obtain cause for a criminal prosecution. Situations in which a government operative merely provides the occasion for the commission of a criminal act (e.g. , appearing as a localized gas defect. The foundry's engineers and technicians designed gating systems capable of reducing turbulence to cut down on gas defects. This involved adapting a significant change in gating philosophy. Rigging was designed with smooth transitions. Bottom filling replaced filling at the parting line or top filling. In order to accommodate this type of mold filling, gating systems in a three-part mold (two-part drag) were developed. In the designs developed, the metal experienced turbulence in the sprue sprue, chronic disorder of the small intestine caused by impaired absorption of fat and other nutrients. Two forms of the disease exist. Tropical sprue occurs in central and northern South America, Asia, Africa, and other specific locations. and runners, allowing it to fill quietly as it entered the mold cavity. Figure 2 shows a molded AG Anderson casting--an open impeller molded according to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. its gating. This design required that the main runner bar be placed in the bottom part of the drag. A change in sprue design also aided production. Properly-sized. square-shaped sprues avoid vortexing and remain full throughout pouring, which helps decrease air entrapment. Another technique used was a pressurized pres·sur·ize tr.v. pres·sur·ized, pres·sur·iz·ing, pres·sur·iz·es 1. To maintain normal air pressure in (an enclosure, as an aircraft or submarine). 2. gating system with the choke at the ingates. Main runners were designed to reduce velocity and allow nonmetallic non·me·tal·lic adj. 1. Not metallic. 2. Chemistry Of, relating to, or being a nonmetal. Adj. 1. inclusions to float. Both cope and drag In foundry work, the terms Cope and Drag refer to the upper and lower parts of a two-part casting flask, used in sand casting. The flask is a wood or metal frame, which contains the molding sand, providing support to the sand as the metal is poured into the mold. runners and ingates were used. Ceramic filters were adopted for laminating turbulent flow in addition to their primary function of retaining nonmetallic inclusions. Lessons Learned The control of detrimental gas is a vital step in producing good quality steel castings. The success stemming from AG Anderson's efforts to eliminate gas in steel casting production has resulted in castings with fewer defects Since implementing these practices, rework time has decreased by 40%. Even though gases are more difficult to control in induction melting furnaces than in arc furnaces, continuous efforts to reduce gas-related defects in steel castings must be made. However, the final deoxidizer, whether titanium or aluminum, is only a part of the solution. Many other factors contribute to the level of dissolved gases in steel castings.
Table 1.
AG Anderson's Filter Selection Guidelines Based on Maximum Recommended
Pour Rate.
Filter Size (10 pore/in. filters) Maximum
recommended pour weight (lb)
Aluminum
Deoxidized
Steels
Single Double
Filter Filter
4 x 4 x 1 in. 400 850
5 x 5 x 1 in. 625 1328
6 x 6 x 1 in. 900 1912
3 in. dia x 1 in. 177
4 in. dia x 1 in. 314
5 in. dia x 1 in. 491
Filter Size (10 pore/in. filters) Maximum recommended pour
weight (lb)
Aluminum and Titanium Titanium
Deoxidized Steels Deoxidized
(0.02% Al, 0.05% Ti) Steels
Single Double Single
Filter Filter Filter
4 x 4 x 1 in. 720 1530 800
5 x 5 x 1 in. 1125 2391 1250
6 x 6 x 1 in. 1620 3442 1800
3 in. dia x 1 in. 318 353
4 in. dia x 1 in. 565 628
5 in. dia x 1 in. 883 981
Filter Size (10
pore/in.
filters)
Maximum
recommende
d pour
weight
(lb)
Titanium
Deoxidized
Steels
Double
Filter
4 x 4 x 1 in. 1700
5 x 5 x 1 in. 2656
6 x 6 x 1 in. 3825
3 in. dia x 1 in.
4 in. dia x 1 in.
5 in. dia x 1 in.
For More Information Visit www.moderncasting.com for the 1992 AFS A distributed file system for large, widely dispersed Unix and Windows networks from Transarc Corporation, now part of IBM. It is noted for its ease of administration and expandability and stems from Carnegie-Mellon's Andrew File System. AFS - Andrew File System Transaction Paper, (92-08) "Variables Affecting the Nitrogen Content of Carbon and Low Alloy Acid Electric Arc Furnace Steels," C. F. Pilliod (1992). "Efficient Steel Melting with Induction," P.D. Cerverello, AFS International Conference on Steel Melting & Refining (2000). This article was adapted from a presentation at the 54th Annual Technical & Operating Conference of the Steel Founders' Society of America. For a free copy of this article circle No. 345 on the Reader Action Card. About the Author Vasile lonescu has worked in foundries since 1981 and has been a metallurgist at AG Anderson, Ltd. for the last 5 yr. |
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