Misplaced Pages

#859140

106-449: There is a great variety of cookware and bakeware in shape, material, and inside surface. Some materials conduct heat well ; some retain heat well. Some surfaces are non-stick ; some require seasoning . Some pots and their lids have handles or knobs made of low thermal conductance materials such as bakelite , plastic or wood , which make them easy to pick up without oven gloves . A good cooking pot design has an "overcook edge" which

212-599: A spit employed for roasting. By the 17th century, it was common for a Western kitchen to contain a number of skillets, baking pans, a kettle and several pots, along with a variety of pot hooks and trivets. Brass or copper vessels were common in Asia and Europe, whilst iron pots were common in the American colonies . Improvements in metallurgy during the 19th and 20th centuries allowed for pots and pans from metals such as steel, stainless steel and aluminium to be economically produced. At

318-431: A .35–45-mm-thick lining. Decorative copper cookware, i.e., a pot or pan less than 1 mm thick and therefore unsuited to cooking, will often be electroplate lined with tin. Should a wiped tin lining be damaged or wear out the cookware can be re-tinned, usually for much less cost than the purchase price of the pan. Tin presents a smooth crystalline structure and is therefore relatively non-stick in cooking applications. As

424-403: A basket from large leaves to boil water, according to historian and novelist Louis L'Amour . As long as the flames did not reach above the level of water in the basket, the leaves would not burn through. The development of pottery allowed for the creation of fireproof cooking vessels in a variety of shapes and sizes. Coating the earthenware with some type of plant gum, and later glazes, converted

530-407: A dense gas, has a relatively high thermal conductivity due to its high heat capacity . Argon and krypton , gases denser than air, are often used in insulated glazing (double paned windows) to improve their insulation characteristics. The thermal conductivity through bulk materials in porous or granular form is governed by the type of gas in the gaseous phase, and its pressure. At low pressures,

636-419: A density dependence of the thermal conductivity in dense gases. Typically, experiments show a more rapid increase with temperature than k ∝ T {\displaystyle k\propto {\sqrt {T}}} (here, λ {\displaystyle \lambda } is independent of T {\displaystyle T} ). This failure of the elementary theory can be traced to

742-429: A foil layer of copper on the exterior to provide the "look" of a copper pot at a lower price. Enameled cast iron cooking vessels are made of cast iron covered with a porcelain surface. This creates a piece that has the heat distribution and retention properties of cast iron combined with a non-reactive, low-stick surface. The enamel over steel technique creates a piece that has the heat distribution of carbon steel and

848-421: A gas, thermal conduction is mediated by discrete molecular collisions. In a simplified picture of a solid, thermal conduction occurs by two mechanisms: 1) the migration of free electrons and 2) lattice vibrations ( phonons ). The first mechanism dominates in pure metals and the second in non-metallic solids. In liquids, by contrast, the precise microscopic mechanisms of thermal conduction are poorly understood. In

954-426: A horizontal spit, it is also preferable to keep the roast further away from the heat source in the beginning, which minimizes infrared heating while preserving air convection heating. Later on, the roast is brought closer, thus combining intense convection and radiation heating. Supermarkets commonly mass-produce rotisserie chickens using a horizontal rotisserie that has metal bars to hold the chicken in place through

1060-409: A large industrial oven. The latter are commonly used to mass-produce roasted meats for sale to consumers. In this style of rotisserie, balance is important. If the object to be cooked is far out of balance, it will impose a heavy load on the drive mechanism or cause the mechanism to fail to turn. Loose chicken legs or wings can also cause the mechanism to jam. For these two reasons, some skewering skill

1166-402: A lifetime or more) and are inert and non-reactive. Heat is also conducted evenly in this material. They can be used for both cooking in a fire pit surrounded with coals and for baking in the oven. Glazed ceramics, such as porcelain , provide a nonstick cooking surface. Historically some glazes used on ceramic articles contained levels of lead , which can possess health risks; although this

SECTION 10

#1732847867860

1272-402: A long, solid rod used to hold food while it is being cooked over a fire in a fireplace or over a campfire , or roasted in an oven . This method is generally used for cooking large joints of meat or entire animals, such as pigs or turkeys . The rotation cooks the meat evenly in its own juices and allows easy access for continuous basting . In medieval cuisine and early modern kitchens ,

1378-479: A material used in an insulation product or assembly, R- and U-values are measured per unit area, and depend on the specified thickness of the product or assembly. Likewise the textile industry has several units including the tog and the clo which express thermal resistance of a material in a way analogous to the R-values used in the construction industry. There are several ways to measure thermal conductivity; each

1484-458: A non-reactive, low-stick surface. Such pots are much lighter than most other pots of similar size, are cheaper to make than stainless steel pots, and do not have the rust and reactivity issues of cast iron or carbon steel. Enamel over steel is ideal for large stockpots and for other large pans used mostly for water-based cooking. Because of its light weight and easy cleanup, enamel over steel is also popular for cookware used while camping. Seasoning

1590-406: A non-stick pan cannot be used where a pan sauce is desired. Non-stick coatings tend to degrade over time and are susceptible to damage. Using metal implements, harsh scouring pads, or chemical abrasives can damage or destroy cooking surface. Non-stick pans must not be overheated. The coating is stable at normal cooking temperatures, even at the smoke point of most oils. However, if a non-stick pan

1696-416: A plate of thermal conductivity k {\displaystyle k} , area A {\displaystyle A} and thickness L {\displaystyle L} , The heat transfer coefficient is also known as thermal admittance in the sense that the material may be seen as admitting heat to flow. An additional term, thermal transmittance , quantifies the thermal conductance of

1802-521: A pot may be made out of a more reactive metal, and then tinned or clad with another. While metal pots take heat very well, they usually react poorly to rapid cooling, such as being plunged into water while hot, this will usually warp the piece over time. Aluminium is a lightweight metal with very good thermal conductivity. It is resistant to many forms of corrosion. Aluminium is commonly available in sheet, cast, or anodized forms, and may be physically combined with other metals (see below). Sheet aluminium

1908-469: A relatively low magnetic permeability , making it incompatible with induction cooktops . Recent developments have allowed the production of ferromagnetic 18/10 alloys with a higher permeability. In so-called "tri-ply" cookware, the central aluminum layer is paramagnetic, and the interior 18/10 layer may also, but the exterior layer at the base must be ferromagnetic to be compatible with induction cooktops. Stainless steel does not require seasoning to protect

2014-492: A relatively soft metal abrasive cleansers or cleaning techniques can accelerate wear of tin linings. Wood, silicone or plastic implements are to preferred over harder stainless steel types. For a period following the Second World War, copper cookware was electroplated with a nickel lining. Nickel is harder and more thermally efficient than tin, with a higher melting point. Despite its hardness, it wore out as fast as tin, as

2120-582: A risk factor for Alzheimer's disease . The Alzheimer's Association states that "studies have failed to confirm any role for aluminum in causing Alzheimer's." The link remains controversial. Copper provides the highest thermal conductivity among non- noble metals and is therefore fast heating with unparalleled heat distribution (see: Copper in heat exchangers ). Pots and pans are cold-formed from copper sheets of various thicknesses, with those in excess of 2.5 mm considered commercial (or extra-fort ) grade. Between 1 mm and 2.5 mm wall thickness

2226-561: A simplified model of a dilute monatomic gas, molecules are modeled as rigid spheres which are in constant motion, colliding elastically with each other and with the walls of their container. Consider such a gas at temperature T {\displaystyle T} and with density ρ {\displaystyle \rho } , specific heat c v {\displaystyle c_{v}} and molecular mass m {\displaystyle m} . Under these assumptions, an elementary calculation yields for

SECTION 20

#1732847867860

2332-509: A solid material placed between two environments of different temperatures. Let T 1 {\displaystyle T_{1}} be the temperature at x = 0 {\displaystyle x=0} and T 2 {\displaystyle T_{2}} be the temperature at x = L {\displaystyle x=L} , and suppose T 2 > T 1 {\displaystyle T_{2}>T_{1}} . An example of this scenario

2438-413: A structure along with heat transfer due to convection and radiation . It is measured in the same units as thermal conductance and is sometimes known as the composite thermal conductance . The term U-value is also used. Finally, thermal diffusivity α {\displaystyle \alpha } combines thermal conductivity with density and specific heat : As such, it quantifies

2544-540: A turbine mounted in the chimney with a worm transmission for torque and speed conversion. Spits are now usually driven by electric motors . Rotisserie can also refer to a mechanical device used for rotisserie cooking, or to a restaurant specializing in spit-roasted meat. The word comes from French where it first appeared in Paris shops around 1450. Additionally, in restaurants employing the Escoffierian brigade de cuisine ,

2650-511: Is M L T Θ , expressed in terms of the dimensions mass (M), length (L), time (T), and temperature (Θ). Other units which are closely related to the thermal conductivity are in common use in the construction and textile industries. The construction industry makes use of measures such as the R-value (resistance) and the U-value (transmittance or conductance). Although related to the thermal conductivity of

2756-431: Is a building on a cold winter day; the solid material in this case is the building wall, separating the cold outdoor environment from the warm indoor environment. According to the second law of thermodynamics , heat will flow from the hot environment to the cold one as the temperature difference is equalized by diffusion. This is quantified in terms of a heat flux q {\displaystyle q} , which gives

2862-399: Is a notable example of variable thermal conductivity based on orientation and temperature, with 35 W/(m⋅K) along the c axis and 32 W/(m⋅K) along the a axis. Wood generally conducts better along the grain than across it. Other examples of materials where the thermal conductivity varies with direction are metals that have undergone heavy cold pressing , laminated materials, cables,

2968-458: Is a somewhat brittle, porous material that rusts easily. As a result, it should not be dropped or heated unevenly and it typically requires seasoning before use. Seasoning creates a thin layer of oxidized fat over the iron that coats and protects the surface from corrosion, and prevents sticking. Enameled cast-iron cookware was developed in the 1920s. In 1934, the French company Cousances designed

3074-407: Is also a measure known as the heat transfer coefficient : the quantity of heat that passes per unit time through a unit area of a plate of particular thickness when its opposite faces differ in temperature by one kelvin. In ASTM C168-15, this area-independent quantity is referred to as the "thermal conductance". The reciprocal of the heat transfer coefficient is thermal insulance . In summary, for

3180-513: Is also possible to extrapolate likely developments based on methods used by latter peoples. Among the first of the techniques believed to be used by Stone Age civilizations were improvements to basic roasting . In addition to exposing food to direct heat from either an open fire or hot embers, it is possible to cover the food with clay or large leaves before roasting to preserve moisture in the cooked result. Examples of similar techniques are still in use in many modern cuisines. Of greater difficulty

3286-553: Is always defined to be positive. The same definition of k {\displaystyle k} can also be extended to gases and liquids, provided other modes of energy transport, such as convection and radiation , are eliminated or accounted for. The preceding derivation assumes that the k {\displaystyle k} does not change significantly as temperature is varied from T 1 {\displaystyle T_{1}} to T 2 {\displaystyle T_{2}} . Cases in which

Cookware and bakeware - Misplaced Pages Continue

3392-413: Is classified as heat and is quantified by the vector q ( r , t ) {\displaystyle \mathbf {q} (\mathbf {r} ,t)} , which gives the heat flux at position r {\displaystyle \mathbf {r} } and time t {\displaystyle t} . According to the second law of thermodynamics, heat flows from high to low temperature. Hence, it

3498-578: Is common to work in terms of quantities which are derivative to thermal conductivity and implicitly take into account design-specific features such as component dimensions. For instance, thermal conductance is defined as the quantity of heat that passes in unit time through a plate of particular area and thickness when its opposite faces differ in temperature by one kelvin. For a plate of thermal conductivity k {\displaystyle k} , area A {\displaystyle A} and thickness L {\displaystyle L} ,

3604-444: Is considered utility ( fort ) grade, with thicknesses below 1.5 mm often requiring tube beading or edge rolling for reinforcement. Less than 1mm wall thickness is generally considered decorative, with exception made for the case of .75–1 mm planished copper, which is hardened by hammering and therefore expresses performance and strength characteristic of thicker material. Copper thickness of less than .25 mm is, in

3710-551: Is different for metals and nonmetals. In metals, heat conductivity is primarily due to free electrons. Following the Wiedemann–Franz law , thermal conductivity of metals is approximately proportional to the absolute temperature (in kelvins ) times electrical conductivity. In pure metals the electrical conductivity decreases with increasing temperature and thus the product of the two, the thermal conductivity, stays approximately constant. However, as temperatures approach absolute zero,

3816-500: Is difficult to predict from first-principles. Any expressions for thermal conductivity which are exact and general, e.g. the Green-Kubo relations , are difficult to apply in practice, typically consisting of averages over multiparticle correlation functions . A notable exception is a monatomic dilute gas, for which a well-developed theory exists expressing thermal conductivity accurately and explicitly in terms of molecular parameters. In

3922-588: Is frequently incorporated into cookware constructed of primarily dissimilar metal, such as stainless steel, often as an enclosed diffusion layer (see coated and composite cookware below). Cast-iron cookware is slow to heat, but once at temperature provides even heating. Cast iron can also withstand very high temperatures, making cast iron pans ideal for searing . Being a reactive material, cast iron can have chemical reactions with high acid foods such as wine or tomatoes . In addition, some foods (such as spinach ) cooked on bare cast iron will turn black. Cast iron

4028-715: Is heated while empty its temperature may quickly exceed 260 °C (500 °F), above which the non-stick coating may begin to deteriorate, changing color and losing its non-stick properties. Non- metallic cookware can be used in both conventional and microwave ovens . Non-metallic cookware typically can not be used on the stovetop, with the exception of glass-ceramic cookware. Rigid non metallic cookware tends to shatter on sudden cooling or uneven heating, although low expansion materials such as borosilicate glass and glass-ceramics have significant immunity. Pottery has been used to make cookware from before dated history. Pots and pans made with this material are durable (some could last

4134-438: Is inhomogeneous or changing with time. In some solids, thermal conduction is anisotropic , i.e. the heat flux is not always parallel to the temperature gradient. To account for such behavior, a tensorial form of Fourier's law must be used: where κ {\displaystyle {\boldsymbol {\kappa }}} is symmetric, second-rank tensor called the thermal conductivity tensor. An implicit assumption in

4240-561: Is inversely proportional to density, this equation predicts that thermal conductivity is independent of density for fixed temperature. The explanation is that increasing density increases the number of molecules which carry energy but decreases the average distance λ {\displaystyle \lambda } a molecule can travel before transferring its energy to a different molecule: these two effects cancel out. For most gases, this prediction agrees well with experiments at pressures up to about 10 atmospheres . At higher densities,

4346-770: Is known as the thermal Hall effect or Righi–Leduc effect. In the absence of convection, air and other gases are good insulators. Therefore, many insulating materials function simply by having a large number of gas-filled pockets which obstruct heat conduction pathways. Examples of these include expanded and extruded polystyrene (popularly referred to as "styrofoam") and silica aerogel , as well as warm clothes. Natural, biological insulators such as fur and feathers achieve similar effects by trapping air in pores, pockets, or voids. Low density gases, such as hydrogen and helium typically have high thermal conductivity. Dense gases such as xenon and dichlorodifluoromethane have low thermal conductivity. An exception, sulfur hexafluoride ,

Cookware and bakeware - Misplaced Pages Continue

4452-419: Is not a concern with the vast majority of modern ware. Some pottery can be placed on fire directly. Borosilicate glass is safe at oven temperatures. The clear glass also allows for the food to be seen during the cooking process. However, it cannot be used on a stovetop, as it cannot cope with stovetop temperatures. Glass ceramic is used to make products such as Corningware and Pyroflam , which have many of

4558-434: Is predicted for 99.999% C at 80 K, assuming an otherwise pure crystal. The thermal conductivity of 99% isotopically enriched cubic boron nitride is ~ 1400 W · m · K , which is 90% higher than that of natural boron nitride . The molecular mechanisms of thermal conduction vary among different materials, and in general depend on details of the microscopic structure and molecular interactions. As such, thermal conductivity

4664-400: Is reasonable to postulate that q ( r , t ) {\displaystyle \mathbf {q} (\mathbf {r} ,t)} is proportional to the gradient of the temperature field T ( r , t ) {\displaystyle T(\mathbf {r} ,t)} , i.e. where the constant of proportionality, k > 0 {\displaystyle k>0} , is

4770-954: Is recommended and safe, for instance in the preparation of meringue , where copper ions prompt proteins to denature (unfold) and enable stronger protein bonds across the sulfur contained in egg whites. Unlined copper is also used in the making of preserves, jams and jellies. Copper does not store ("bank") heat, and so thermal flows reverse almost immediately upon removal from heat. This allows precise control of consistency and texture while cooking sugar and pectin-thickened preparations. Alone, fruit acid would be sufficient to cause leaching of copper byproducts, but naturally occurring fruit sugars and added preserving sugars buffer copper reactivity. Unlined pans have thereby been used safely in such applications for centuries. Lining copper pots and pans prevents copper from contact with acidic foods. The most popular lining types are tin , stainless steel , nickel and silver . The use of tin dates back many centuries and

4876-400: Is required. High-end consumer ovens commonly come with a rotisserie (or allow the installation of a rotisserie as an option). In these cases, the motor drive mechanism is usually concealed within the oven. The rotisserie is used by removing the normal cooking racks; a special carrier may be needed to provide one or both bearing points for the spit. The speed of rotation can vary, depending on

4982-422: Is spun or stamped into form. Due to the softness of the metal, it may be alloyed with magnesium, copper, or bronze to increase its strength. Sheet aluminium is commonly used for baking sheets, pie plates, and cake or muffin pans. Deep or shallow pots may be formed from sheet aluminium. Cast aluminium can produce a thicker product than sheet aluminium, and is appropriate for irregular shapes and thicknesses. Due to

5088-419: Is still very often employed by professional chefs to avoid sticking. Seasoning of other cookware surfaces is generally discouraged. Non-stick enamels often crack under heat stress, and non-stick polymers (such as Teflon) degrade at high heat so neither type of surface should be seasoned. Steel or aluminum cooking pans can be coated with a substance such as polytetrafluoroethylene (PTFE, often referred to with

5194-581: Is suitable for a limited range of materials. Broadly speaking, there are two categories of measurement techniques: steady-state and transient . Steady-state techniques infer the thermal conductivity from measurements on the state of a material once a steady-state temperature profile has been reached, whereas transient techniques operate on the instantaneous state of a system during the approach to steady state. Lacking an explicit time component, steady-state techniques do not require complicated signal analysis (steady state implies constant signals). The disadvantage

5300-506: Is that a well-engineered experimental setup is usually needed, and the time required to reach steady state precludes rapid measurement. In comparison with solid materials, the thermal properties of fluids are more difficult to study experimentally. This is because in addition to thermal conduction, convective and radiative energy transport are usually present unless measures are taken to limit these processes. The formation of an insulating boundary layer can also result in an apparent reduction in

5406-472: Is the heat flux , k {\displaystyle k} is the thermal conductivity, and ∇ T {\displaystyle \nabla T} is the temperature gradient . This is known as Fourier's law for heat conduction. Although commonly expressed as a scalar , the most general form of thermal conductivity is a second-rank tensor . However, the tensorial description only becomes necessary in materials which are anisotropic . Consider

SECTION 50

#1732847867860

5512-612: Is the original lining for copper cookware. Although the patent for canning in sheet tin was secured in 1810 in England, legendary French chef Auguste Escoffier experimented with a solution for provisioning the French army while in the field by adapting the tin lining techniques used for his cookware to more robust steel containers (then only lately introduced for canning) which protected the cans from corrosion and soldiers from lead solder and botulism poisoning. Tin linings sufficiently robust for cooking are wiped onto copper by hand, producing

5618-758: Is the process of treating the surface of a cooking vessel with a dry, hard, smooth, hydrophobic coating formed from polymerized fat or oil. When seasoned surfaces are used for cookery in conjunction with oil or fat a stick-resistant effect is produced. Some form of post-manufacturing treatment or end-user seasoning is mandatory on cast-iron cookware , which rusts rapidly when heated in the presence of available oxygen, notably from water, even small quantities such as drippings from dry meat. Food tends to stick to unseasoned iron and carbon steel cookware, both of which are seasoned for this reason as well. Other cookware surfaces such as stainless steel or cast aluminium do not require as much protection from corrosion but seasoning

5724-439: Is the thermal conductivity; it is a physical property of the material. In the present scenario, since T 2 > T 1 {\displaystyle T_{2}>T_{1}} heat flows in the minus x-direction and q {\displaystyle q} is negative, which in turn means that k > 0 {\displaystyle k>0} . In general, k {\displaystyle k}

5830-424: Is traditionally used for crêpe and fry pans, as well as woks. Cladding is a technique for fabricating pans with a layer of efficient heat conducting material, such as copper or aluminum, covered on the cooking surface by a non-reactive material such as stainless steel, and often covered on the exterior aspect of the pan ("dual-clad") as well. Some pans feature a copper or aluminum interface layer that extends over

5936-455: Is used. The Lorentz number , defined as L=κ/σT is a quantity independent of the carrier density and the scattering mechanism. Its value for a gas of non-interacting electrons (typical carriers in good metallic conductors) is 2.72×10 esu/K , or equivalently, 2.44×10 Watt-Ohm/K . In imperial units , thermal conductivity is measured in BTU /( h ⋅ ft ⋅ °F ). The dimension of thermal conductivity

6042-572: Is what the lid lies on. The lid has a dripping edge that prevents condensation fluid from dripping off when handling the lid (taking it off and holding it 45°) or putting it down. The history of cooking vessels before the development of pottery is minimal due to the limited archaeological evidence. The earliest pottery vessels, dating from 19,600 ± 400  BP , were discovered in Xianrendong Cave , Jiangxi , China. The pottery may have been used as cookware, manufactured by hunter-gatherers . It

6148-459: The Boltzmann equation . The Boltzmann equation, in turn, provides a statistical description of a dilute gas for generic interparticle interactions. For a monatomic gas, expressions for k {\displaystyle k} derived in this way take the form Spit (cooking aide) Rotisserie , also known as spit-roasting , is a style of roasting where meat is skewered on a spit –

6254-400: The genericized trademark Teflon) in order to minimize food sticking to the pan surface. There are advantages and disadvantages to such a coating. Coated pans are easier to clean than most non-coated pans, and require little or no additional oil or fat to prevent sticking, a property that helps to produce lower fat food. On the other hand, some sticking is required to cause sucs to form, so

6360-448: The stovetop , and are only intended for the oven. The development of bronze and iron metalworking skills allowed for cookware made from metal to be manufactured, although adoption of the new cookware was slow due to the much higher cost. After the development of metal cookware there was little new development in cookware, with the standard Medieval kitchen utilizing a cauldron and a shallow earthenware pan for most cooking tasks, with

6466-505: The thermal inertia of a material, i.e. the relative difficulty in heating a material to a given temperature using heat sources applied at the boundary. In the International System of Units (SI), thermal conductivity is measured in watts per meter-kelvin ( W /( m ⋅ K )). Some papers report in watts per centimeter-kelvin [W/(cm⋅K)]. However, physicists use other convenient units as well, e.g., in cgs units , where esu/(cm-sec-K)

SECTION 60

#1732847867860

6572-493: The 1968 Miss America protest , protestors symbolically threw a number of feminine products into a "Freedom Trash Can", which included pots and pans. Metal pots are made from a narrow range of metals because pots and pans need to conduct heat well, but also need to be chemically unreactive so that they do not alter the flavor of the food. Most materials that are conductive enough to heat evenly are too reactive to use in food preparation. In some cases (copper pots, for example),

6678-656: The French pierrade . Thermal conductivity The thermal conductivity of a material is a measure of its ability to conduct heat . It is commonly denoted by k {\displaystyle k} , λ {\displaystyle \lambda } , or κ {\displaystyle \kappa } and is measured in W·m ·K . Heat transfer occurs at a lower rate in materials of low thermal conductivity than in materials of high thermal conductivity. For instance, metals typically have high thermal conductivity and are very efficient at conducting heat, while

6784-404: The ability to determine k {\displaystyle k} for a given material under given conditions. The constant k {\displaystyle k} itself usually depends on T ( r , t ) {\displaystyle T(\mathbf {r} ,t)} and thereby implicitly on space and time. An explicit space and time dependence could also occur if the material

6890-428: The above description is the presence of local thermodynamic equilibrium , which allows one to define a temperature field T ( r , t ) {\displaystyle T(\mathbf {r} ,t)} . This assumption could be violated in systems that are unable to attain local equilibrium, as might happen in the presence of strong nonequilibrium driving or long-ranged interactions. In engineering practice, it

6996-424: The best properties of both glass and ceramic cookware. While Pyrex can shatter if taken between extremes of temperature too rapidly, glass-ceramics can be taken directly from deep freeze to the stove top. Their very low coefficient of thermal expansion makes them less prone to thermal shock . A natural stone can be used to diffuse heat for indirect grilling or baking, as in a baking stone or pizza stone , or

7102-411: The case of cookware, referred to as foil and must be formed to a more structurally rigid metal to produce a serviceable vessel. Such applications of copper are purely aesthetic and do not materially contribute to cookware performance. Copper is reactive with acidic foods which can result in corrosion, the byproducts of which can foment copper toxicity . In certain circumstances, however, unlined copper

7208-509: The conductance is k A / L {\displaystyle kA/L} , measured in W⋅K . The relationship between thermal conductivity and conductance is analogous to the relationship between electrical conductivity and electrical conductance . Thermal resistance is the inverse of thermal conductance. It is a convenient measure to use in multicomponent design since thermal resistances are additive when occurring in series . There

7314-469: The copper with which it is bonded. Among the advantages of stainless steel are its durability and corrosion resistance, and although relatively sticky and subject to food residue adhesions, stainless steel is tolerant of most abrasive cleaning techniques and metal implements. Stainless steel forms a pan's structural element when bonded to copper and is irreparable in the event of wear or damage. Using modern metal bonding techniques, such as cladding , copper

7420-456: The enameled cast iron Doufeu to reduce excessive evaporation and scorching in cast iron Dutch ovens. Modeled on old braising pans in which glowing charcoal was heaped on the lids (to mimic two-fire ovens), the Doufeu has a deep recess in its lid which instead is filled with ice cubes. This keeps the lid at a lower temperature than the pot bottom. Further, little notches on the inside of the lid allow

7526-604: The end with clay provided a usable container in Asia, while the inhabitants of the Tehuacan Valley began carving large stone bowls that were permanently set into a hearth as early as 7,000 BC. According to Frank Hamilton Cushing, Native American cooking baskets used by the Zuni (Zuñi) developed from mesh casings woven to stabilize gourd water vessels. He reported witnessing cooking basket use by Havasupai in 1881. Roasting baskets covered with clay would be filled with wood coals and

7632-411: The entire pan rather than just a heat-distributing disk on the base. Generally, the thicker the interface layer, especially in the base of the pan, the more improved the heat distribution. Claims of thermal efficiency improvements are, however, controversial, owing in particular to the limiting and heat-banking effect of stainless steel on thermal flows. Aluminum is typically clad on both the inside and

7738-452: The exterior pan surfaces, providing both a stainless cooking surface and a stainless surface to contact the cooktop. Copper of various thicknesses is often clad on its interior surface only, leaving the more attractive copper exposed on the outside of the pan (see Copper above). Some cookware use a dual-clad process, with a thin stainless layer on the cooking surface, a thick core of aluminum to provide structure and improved heat diffusion, and

7844-541: The gas. In a granular material d {\displaystyle d} corresponds to the characteristic size of the gaseous phase in the pores or intergranular spaces. The thermal conductivity of a crystal can depend strongly on isotopic purity, assuming other lattice defects are negligible. A notable example is diamond: at a temperature of around 100 K the thermal conductivity increases from 10,000 W · m · K for natural type IIa diamond (98.9% C ), to 41,000 for 99.9% enriched synthetic diamond. A value of 200,000

7950-422: The general correlation between electrical and thermal conductance does not hold for other materials, due to the increased importance of phonon carriers for heat in non-metals. Highly electrically conductive silver is less thermally conductive than diamond , which is an electrical insulator but conducts heat via phonons due to its orderly array of atoms. The influence of magnetic fields on thermal conductivity

8056-599: The highest thermal conductivities at room temperature. The thermal conductivity of natural diamond at room temperature is several times higher than that of a highly conductive metal such as copper (although the precise value varies depending on the diamond type ). Thermal conductivities of selected substances are tabulated below; an expanded list can be found in the list of thermal conductivities . These values are illustrative estimates only, as they do not account for measurement uncertainties or variability in material definitions. The effect of temperature on thermal conductivity

8162-467: The isolation of nickel as an allergen. Silver is also applied to copper by means of electroplating, and provides an interior finish that is at once smooth, more durable than either tin or nickel, relatively non-stick and extremely thermally efficient. Copper and silver bond extremely well owing to their shared high electro-conductivity . Lining thickness varies widely by maker, but averages between 7 and 10 microns. The disadvantages of silver are expense and

8268-414: The material does not adequately spread the heat itself, stainless steel cookware is generally made as a cladding of stainless steel on both sides of an aluminum or copper core to conduct the heat across all sides, thereby reducing "hot spots", or with a disk of copper or aluminum on just the base to conduct the heat across the base, with possible "hot spots" at the sides. Typical 18/10 stainless steel also has

8374-516: The materials used for the Space Shuttle thermal protection system , and fiber-reinforced composite structures. When anisotropy is present, the direction of heat flow may differ from the direction of the thermal gradient. In metals, thermal conductivity is approximately correlated with electrical conductivity according to the Wiedemann–Franz law , as freely moving valence electrons transfer not only electric current but also heat energy. However,

8480-432: The microscopic pores caused by the casting process, cast aluminium has a lower thermal conductivity than sheet aluminium. It is also more expensive. Accordingly, cast aluminium cookware has become less common. It is used, for example, to make Dutch ovens lightweight and bundt pans heavy duty, and used in ladles and handles and woks to keep the sides at a lower temperature than the center. Anodized aluminium has had

8586-805: The moisture to collect and drop back into the food during the cooking. Although the Doufeu (literally, "gentlefire") can be used in an oven (without the ice, as a casserole pan), it is chiefly designed for stove top use. Enameled cast-iron cookware, unlike uncoated cast-iron, is minimally reactive thus can be used with acidic food. Stainless steel is an iron alloy containing a minimum of 11.5% chromium. Blends containing 18% chromium with either 8% nickel, called 18/8 , or with 10% nickel, called 18/10, are commonly used for kitchen cookware. Stainless steel's virtues are resistance to corrosion, non-reactivity with either alkaline or acidic foods, and resistance to scratching and denting. Stainless steel's drawbacks for cooking use include its relatively poor thermal conductivity. Since

8692-468: The naturally occurring layer of aluminium oxide thickened by an electrolytic process to create a surface that is hard and non-reactive. It is used for sauté pans, stockpots, roasters, and Dutch ovens. Uncoated and un-anodized aluminium can react with acidic foods to change the taste of the food. Sauces containing egg yolks, or vegetables such as asparagus or artichokes may cause oxidation of non-anodized aluminium. Aluminium exposure has been suggested as

8798-560: The opposite is true for insulating materials such as mineral wool or Styrofoam . Correspondingly, materials of high thermal conductivity are widely used in heat sink applications, and materials of low thermal conductivity are used as thermal insulation . The reciprocal of thermal conductivity is called thermal resistivity . The defining equation for thermal conductivity is q = − k ∇ T {\displaystyle \mathbf {q} =-k\nabla T} , where q {\displaystyle \mathbf {q} }

8904-405: The oversimplified "hard sphere" model, which both ignores the "softness" of real molecules, and the attractive forces present between real molecules, such as dispersion forces . To incorporate more complex interparticle interactions, a systematic approach is necessary. One such approach is provided by Chapman–Enskog theory , which derives explicit expressions for thermal conductivity starting from

9010-525: The pan is intentionally kept at a different temperature than the rest. Like cast iron, carbon steel must be seasoned before use, usually by rubbing a fat or oil on the cooking surface and heating the cookware on the stovetop or in the oven. With proper use and care, seasoning oils polymerize on carbon steel to form a low-tack surface, well-suited to browning, Maillard reactions and easy release of fried foods. Carbon steel will easily rust if not seasoned and should be stored seasoned to avoid rusting. Carbon steel

9116-447: The phonon mean free path is not reduced significantly at higher temperatures. Thus, the thermal conductivity of nonmetals is approximately constant at high temperatures. At low temperatures well below the Debye temperature , thermal conductivity decreases, as does the heat capacity, due to carrier scattering from defects. When a material undergoes a phase change (e.g. from solid to liquid),

9222-402: The plating was 20 microns thick or less, as nickel tends to plate somewhat irregularly, and requires milling to produce an even cooking surface. Nickel is also stickier than tin or silver. Copper cookware with aged or damaged nickel linings can be retinned, or possibly replating with nickel, although this is no longer widely available. Nickel linings began to fall out of favor in the 1980s owing to

9328-409: The porous container into a waterproof vessel. The earthenware cookware could then be suspended over a fire through use of a tripod or other apparatus, or even be placed directly into a low fire or coal bed as in the case of the pipkin . Ceramics conduct heat poorly, however, so ceramic pots must cook over relatively low heats and over long periods of time. However, most ceramic pots will crack if used on

9434-456: The product to be roasted. When the thus-fired clay separated from the basket, it would become a usable clay roasting pan in itself. This indicates a steady progression from use of woven gourd casings to waterproof cooking baskets to pottery. Other than in many other cultures, Native Americans used and still use the heat source inside the cookware. Cooking baskets are filled with hot stones and roasting pans with wood coals. Native Americans would form

9540-408: The rate, per unit area, at which heat flows in a given direction (in this case minus x-direction). In many materials, q {\displaystyle q} is observed to be directly proportional to the temperature difference and inversely proportional to the separation distance L {\displaystyle L} : The constant of proportionality k {\displaystyle k}

9646-413: The roasting, to help interior temperature rise without burning the exterior. Once the exterior has started to crust, then the rate of rotation is adjusted down so as to minimize dripping. This allows juices and drippings to stay on, thus maximizing flavor. The latter is particularly important if using a horizontal spit and coals or an open fire, in which case the drippings cannot be salvaged for basting. For

9752-428: The rotisseur is the chef responsible for all spit-roasted, oven roasted, grilled and in some cases fried foods. This style mounts the spit horizontally. They are often used to cook whole chickens or roasts of various meats including beef and pork . The design may include a single spit mounted over an open broiler or grill , a single spit mounted within an otherwise-conventional oven , or many spits mounted within

9858-414: The simplifying assumption that energy is only transported by the translational motion of particles no longer holds, and the theory must be modified to account for the transfer of energy across a finite distance at the moment of collision between particles, as well as the locally non-uniform density in a high density gas . This modification has been carried out, yielding Revised Enskog Theory , which predicts

9964-414: The spit was the preferred way of cooking meat in a large household. A servant, preferably a boy, sat near the spit turning the metal rod slowly and cooking the food; he was known as the "spit boy" or "spit jack". Mechanical turnspits (" roasting jacks ") were later invented, first powered by dogs on treadmills, and then by steam power and mechanical clockwork mechanisms. The spit could also be powered by

10070-465: The surface from rust, but may be seasoned to provide a non-stick surface. Carbon-steel cookware can be rolled or hammered into relatively thin sheets of dense material, which provides robust strength and improved heat distribution. Carbon steel accommodates high, dry heat for such operations as dry searing. Carbon steel does not conduct heat efficiently, but this may be an advantage for larger vessels, such as woks and paella pans, where one portion of

10176-530: The temperature variation of k {\displaystyle k} is non-negligible must be addressed using the more general definition of k {\displaystyle k} discussed below. Thermal conduction is defined as the transport of energy due to random molecular motion across a temperature gradient. It is distinguished from energy transport by convection and molecular work in that it does not involve macroscopic flows or work-performing internal stresses. Energy flow due to thermal conduction

10282-402: The tendency of sulfurous foods, especially brassicas , to discolor. Worn silver linings on copper cookware can be restored by stripping and re-electroplating. Copper cookware lined with a thin layer of stainless steel is available from most modern European manufacturers. Stainless steel is 25 times less thermally conductive than copper, and is sometimes critiqued for compromising the efficacy of

10388-495: The thermal conductivity where β {\displaystyle \beta } is a numerical constant of order 1 {\displaystyle 1} , k B {\displaystyle k_{\text{B}}} is the Boltzmann constant , and λ {\displaystyle \lambda } is the mean free path , which measures the average distance a molecule travels between collisions. Since λ {\displaystyle \lambda }

10494-433: The thermal conductivity decreases sharply. In alloys the change in electrical conductivity is usually smaller and thus thermal conductivity increases with temperature, often proportionally to temperature. Many pure metals have a peak thermal conductivity between 2 K and 10 K. On the other hand, heat conductivity in nonmetals is mainly due to lattice vibrations ( phonons ). Except for high-quality crystals at low temperatures,

10600-450: The thermal conductivity may change abruptly. For instance, when ice melts to form liquid water at 0 °C, the thermal conductivity changes from 2.18 W/(m⋅K) to 0.56 W/(m⋅K). Even more dramatically, the thermal conductivity of a fluid diverges in the vicinity of the vapor-liquid critical point . Some substances, such as non- cubic crystals , can exhibit different thermal conductivities along different crystal axes. Sapphire

10706-451: The thermal conductivity of a gaseous phase is reduced, with this behaviour governed by the Knudsen number , defined as K n = l / d {\displaystyle K_{n}=l/d} , where l {\displaystyle l} is the mean free path of gas molecules and d {\displaystyle d} is the typical gap size of the space filled by

10812-439: The thermal conductivity. The thermal conductivities of common substances span at least four orders of magnitude. Gases generally have low thermal conductivity, and pure metals have high thermal conductivity. For example, under standard conditions the thermal conductivity of copper is over 10 000 times that of air. Of all materials, allotropes of carbon, such as graphite and diamond , are usually credited with having

10918-436: The thermal conductivity. This is called Fourier's law of heat conduction. Despite its name, it is not a law but a definition of thermal conductivity in terms of the independent physical quantities q ( r , t ) {\displaystyle \mathbf {q} (\mathbf {r} ,t)} and T ( r , t ) {\displaystyle T(\mathbf {r} ,t)} . As such, its usefulness depends on

11024-447: The type of food being cooked and proximity to the heat source. Large animals, such as whole pigs, are often cooked at speeds ranging from 3 rpm to 1 rpm. Ron Popeil , inventor of the Ronco "Showtime" rotisserie oven, claims that 6 rpm is an ideal speed for cooking a variety of food. Generally speaking, when a whole animal is being spit roasted, it is best rotated faster in the early part of

11130-417: The weakest part of the breast (also which hardly affects the meat itself from the impaling, but still holds the chicken firmly in place) and the densest part of the chicken (located just below the drumstick of the chicken). Another style of rotisserie is the vertical rotisserie in which the heat is applied directly from the side or, less commonly, convected up from below. In this style of rotisserie, balance of

11236-431: Was finding a method to boil water. For people without access to natural heated water sources, such as hot springs, heated stones (" pot boilers ") could be placed in a water-filled vessel to raise its temperature (for example, a leaf-lined pit or the stomach from animals killed by hunters). In many locations the shells of turtles or large mollusks provided a source for waterproof cooking vessels. Bamboo tubes sealed at

#859140