Akt\u00edvny oxid hlinit\u00fd je forma oxidu hlinit\u00e9ho s mimoriadne ve\u013ek\u00fdm povrchom. Aktiv\u00e1ciou sa jeho kry\u0161talick\u00e1 \u0161trukt\u00fara men\u00ed na zlo\u017eit\u00fa sie\u0165 p\u00f3rov a kan\u00e1likov s vn\u00fatorn\u00fdm povrchom v\u00e4\u010d\u0161\u00edm ako 200 metrov \u0161tvorcov\u00fdch na gram - v\u010faka tomu m\u00e1 tento materi\u00e1l neuverite\u013en\u00e9 absorp\u010dn\u00e9 schopnosti na pohlcovanie chemik\u00e1li\u00ed, plynov a vlhkosti, tak\u017ee je vhodn\u00fd ako vys\u00fa\u0161adlo alebo adsorbent; okrem toho bol \u00faspe\u0161ne pou\u017eit\u00fd na \u010distenie pitnej vody od kontaminantov arz\u00e9nu, fluoridu a sel\u00e9nu.<\/p>\n
Materi\u00e1l na b\u00e1ze oxidu hlinit\u00e9ho sa m\u00f4\u017ee formova\u0165 bu\u010f do gran\u00fal, alebo do peliet v z\u00e1vislosti od po\u017eadovan\u00e9ho kone\u010dn\u00e9ho pou\u017eitia, pri\u010dom ve\u013ekos\u0165 \u010dast\u00edc sa ur\u010duje r\u00f4znymi aglomera\u010dn\u00fdmi technikami, ako s\u00fa kol\u00edkov\u00e9 mie\u0161a\u010dky alebo diskov\u00e9 peletiz\u00e1tory; naj\u010dastej\u0161ie sa pou\u017e\u00edvaj\u00fa kol\u00edkov\u00e9 mie\u0161a\u010dky. Oxid hlinit\u00fd sa z\u00edskava zo surov\u00edn, ako je bauxit, chemickou \u00fapravou a kalcin\u00e1ciou, ktor\u00e9 menia jeho \u0161truktur\u00e1lne vlastnosti a priemer p\u00f3rov, a nakoniec sa podrob\u00ed sp\u00e4tnej \u00faprave, aby sa odstr\u00e1nili v\u0161etky vyl\u00fahovate\u013en\u00e9 ne\u010distoty, ktor\u00e9 by mohli zosta\u0165.<\/p>\n
Hlin\u00edk m\u00f4\u017ee pom\u00f4c\u0165 udr\u017ea\u0165 elektronick\u00e9 obaly po\u010das skladovania alebo prepravy v suchu, \u010d\u00edm sa zn\u00ed\u017ei po\u0161kodenie sp\u00f4soben\u00e9 vlhkos\u0165ou, ktor\u00e9 by inak mohlo vies\u0165 ku skratu a kor\u00f3zii zariaden\u00ed a komponentov. Aby sa v\u0161ak maximalizovala \u00fa\u010dinnos\u0165 oxidu hlinit\u00e9ho, je potrebn\u00e9 venova\u0165 mu n\u00e1le\u017eit\u00fa pozornos\u0165 pri skladovan\u00ed a manipul\u00e1cii s n\u00edm; osved\u010den\u00fd postup zah\u0155\u0148a jeho skladovanie v chladnom a suchom priestore bez reak\u010dn\u00fdch chemik\u00e1li\u00ed v bl\u00edzkosti, ako aj pou\u017e\u00edvanie ochrann\u00fdch pom\u00f4cok, ako s\u00fa rukavice a protiprachov\u00e1 maska pri manipul\u00e1cii s t\u00fdmto materi\u00e1lom.<\/p>\n
Odolnos\u0165 aktivovan\u00e9ho oxidu hlinit\u00e9ho vo\u010di tepeln\u00fdm \u0161okom a mechanick\u00e9mu nam\u00e1haniu z neho rob\u00ed vynikaj\u00facu vo\u013ebu pre aplik\u00e1cie zah\u0155\u0148aj\u00face n\u00e1hle zmeny teploty alebo tlaku, ktor\u00e9 by mohli po\u0161kodi\u0165 adsorp\u010dn\u00fd syst\u00e9m, ako aj n\u00e1kladovo efekt\u00edvne alternat\u00edvy k tradi\u010dnej\u0161\u00edm technik\u00e1m odstra\u0148ovania H2S, ako je oxid\u00e1cia alebo \u010distenie.<\/p>\n
Schopnos\u0165 akt\u00edvneho oxidu hlinit\u00e9ho regenerova\u0165 svoju adsorp\u010dn\u00fa kapacitu zni\u017euje n\u00e1klady na \u00fadr\u017ebu a prev\u00e1dzkov\u00e9 prestoje, v\u010faka \u010domu je ekonomickej\u0161\u00ed ako in\u00e9 adsorbenty, napr\u00edklad molekulov\u00e9 sit\u00e1 alebo silikag\u00e9l. Regener\u00e1cia tie\u017e zni\u017euje mno\u017estvo produkovan\u00e9ho odpadu a zni\u017euje frekvenciu v\u00fdmeny, \u010do vedie k v\u00fdrazn\u00fdm \u00faspor\u00e1m prev\u00e1dzkov\u00fdch n\u00e1kladov aj n\u00e1kladov na likvid\u00e1ciu.<\/p>\n
Hlinit\u00fd piesok je neoddelite\u013enou s\u00fa\u010das\u0165ou v\u00fdroby hlin\u00edkov\u00fdch odliatkov, ktor\u00e9 sa vyr\u00e1baj\u00fa mlet\u00edm a trieden\u00edm vysokokvalitn\u00e9ho kremenn\u00e9ho piesku s vysok\u00fdm obsahom oxidu hlinit\u00e9ho. Tento materi\u00e1l mo\u017eno pou\u017ei\u0165 na v\u00fdrobu zlo\u017eit\u00fdch dielov s komplexnou geometriou, pri\u010dom zost\u00e1va odoln\u00fd vo\u010di tlaku a teplote; viacn\u00e1sobn\u00e9 formy s identick\u00fdmi vzormi umo\u017e\u0148uj\u00fa efekt\u00edvnu s\u00e9riov\u00fa v\u00fdrobu; zohr\u00e1va z\u00e1sadn\u00fa \u00falohu v procesoch odlievania hlin\u00edka, preto\u017ee zlep\u0161uje presnos\u0165 rozmerov.<\/p>\n
Biely taven\u00fd oxid hlinit\u00fd je jednou z troch z\u00e1kladn\u00fdch odr\u00f4d oxidu hlinit\u00e9ho, pri\u010dom medzi nimi mo\u017eno n\u00e1js\u0165 aj siv\u00fd taven\u00fd oxid hlinit\u00fd a \u010dierny karbid krem\u00edka. Biely taven\u00fd oxid hlinit\u00fd sa \u010dasto vyber\u00e1 na tryskanie kovov, preto\u017ee okrem toho, \u017ee je k dispoz\u00edcii v r\u00f4znych zrnitostiach, pon\u00faka tvrdos\u0165 a odolnos\u0165, zatia\u013e \u010do siv\u00fd taven\u00fd oxid hlinit\u00fd poskytuje v\u00e4\u010d\u0161iu \u017eivotnos\u0165 ako biely oxid hlinit\u00fd, ke\u010f sa pou\u017e\u00edva na tvrd\u0161ie povrchy; okrem toho je z h\u013eadiska n\u00e1kladov na jeden \u00fader cenovo v\u00fdhodnej\u0161\u00ed ako kremi\u010dit\u00fd piesok!<\/p>\n
Mechanick\u00e9 vlastnosti zah\u0155\u0148aj\u00fa vynikaj\u00facu mechanick\u00fa pevnos\u0165, odolnos\u0165 proti opotrebovaniu, chemick\u00e9, tepeln\u00e9 a elektrick\u00e9 vlastnosti; jeho hustota zaru\u010duje, \u017ee odol\u00e1 extr\u00e9mnym teplot\u00e1m; je nepor\u00e9zny pre inertn\u00fd povrch, ktor\u00fd odol\u00e1va sp\u00e1jkovaniu a plazmov\u00e9mu leptaniu; elektrick\u00e9 puzdr\u00e1\/izol\u00e1tory m\u00f4\u017eu by\u0165 potiahnut\u00e9 kovom pre vysokoteplotn\u00e9 aplik\u00e1cie; je vhodn\u00fd pre elektrick\u00e9 puzdr\u00e1\/izol\u00e1tory, ako aj pre vysokoteplotn\u00e9 aplik\u00e1cie, ako s\u00fa priechodky z keramiky na kov, priechodky pre r\u00f6ntgenov\u00e9 komponenty a puzdr\u00e1 elektrick\u00fdch konektorov - v\u010faka tomu je tento materi\u00e1l dokonca ide\u00e1lny pre vojensk\u00e9 pou\u017eitie!<\/p>\n
Odlievanie hlin\u00edka do piesku je jedn\u00fdm z najflexibilnej\u0161\u00edch v\u00fdrobn\u00fdch procesov, ktor\u00e9 s\u00fa v s\u00fa\u010dasnosti k dispoz\u00edcii, a umo\u017e\u0148uje v\u00fdrobcom vyr\u00e1ba\u0165 komponenty so zlo\u017eitou geometriou a vysokou \u00farov\u0148ou presnosti pre r\u00f4zne priemyseln\u00e9 odvetvia - okrem in\u00e9ho leteck\u00fd a automobilov\u00fd priemysel. Odlievanie do piesku m\u00f4\u017ee v\u00fdrazne zn\u00ed\u017ei\u0165 v\u00fdrobn\u00e9 n\u00e1klady, ak sa efekt\u00edvne pou\u017e\u00edva ako alternat\u00edva k vstrekovaniu; na dosiahnutie maxim\u00e1lneho \u00faspechu je nevyhnutn\u00e9 dodr\u017eiava\u0165 osved\u010den\u00e9 postupy, ako je v\u00fdber vhodn\u00fdch zliatin, navrhovanie foriem s primeran\u00fdm vetran\u00edm a robustnos\u0165ou, optimaliz\u00e1cia vlastnost\u00ed zmesi a vykon\u00e1vanie bezpe\u010dnostn\u00fdch opatren\u00ed - tieto kroky pom\u00f4\u017eu minimalizova\u0165 chyby a z\u00e1rove\u0148 zv\u00fd\u0161i\u0165 produktivitu.<\/p>\n
Pr\u00e1\u0161kov\u00fd oxid hlinit\u00fd je nekovov\u00fd miner\u00e1l s vynikaj\u00facimi mechanick\u00fdmi, tepeln\u00fdmi a elektrick\u00fdmi vlastnos\u0165ami. Mikrokry\u0161talick\u00fd hlin\u00edk sa \u0161iroko vyu\u017e\u00edva na mnoh\u00e9 priemyseln\u00e9 \u00fa\u010dely vr\u00e1tane tepelnej izol\u00e1cie, keramick\u00fdch a kovov\u00fdch sp\u00e1jkovac\u00edch zost\u00e1v, priechodiek pre r\u00f6ntgenov\u00e9 komponenty, mikrovlnn\u00fdch okien a pl\u00e1\u0161\u0165ov pre termo\u010dl\u00e1nky. Okrem toho sa tento materi\u00e1l m\u00f4\u017ee dokonca zabudova\u0165 do pancierov na vojensk\u00e9 \u00fa\u010dely. Oxid hlinit\u00fd sa vyzna\u010duje vynikaj\u00facou odolnos\u0165ou proti oderu a pevnos\u0165ou v \u0165ahu, \u010do z neho rob\u00ed ide\u00e1lny materi\u00e1l na br\u00fasenie alebo le\u0161tenie. D\u00e1 sa formova\u0165 do r\u00f4znych tvarov, pre va\u0161e pohodlie sa dod\u00e1va v r\u00f4znych ve\u013ekostiach a tvrdostiach a neabsorbuje vlhkos\u0165 - ide\u00e1lne podmienky na skladovanie! Pr\u00e1\u0161ok oxidu hlinit\u00e9ho skladujte vo vzduchotesn\u00fdch n\u00e1dob\u00e1ch, aby ste zabr\u00e1nili absorpcii vlhkosti Najlep\u0161\u00edm postupom je skladova\u0165 pr\u00e1\u0161ok oxidu hlinit\u00e9ho vo vzduchotesn\u00fdch n\u00e1dob\u00e1ch, aby ste zabr\u00e1nili absorpcii vlhkosti, a tie\u017e dodr\u017eiava\u0165 bezpe\u010dnostn\u00e9 opatrenia pri manipul\u00e1cii s t\u00fdmto materi\u00e1lom, preto\u017ee dlhodob\u00e9 vdychovanie prachu by mohlo vies\u0165 k podr\u00e1\u017edeniu d\u00fdchac\u00edch ciest a sp\u00f4sobi\u0165 infekcie d\u00fdchac\u00edch ciest.<\/p>\n
Pr\u00edroda poskytuje oxid hlinit\u00fd v mnoh\u00fdch form\u00e1ch; hlavn\u00fdmi formami s\u00fa p\u00f4vodn\u00e9 lo\u017eisk\u00e1 bauxitu a lateritu, medzi jeho formy patria korund, gibbit, korundalit a gibbit; ako kremi\u010ditany sa vyskytuje v \u00edloch, \u017eivce a kyanit s\u00fa \u010fal\u0161\u00edmi zdrojmi. Z ktor\u00e9hoko\u013evek z t\u00fdchto zdrojov mo\u017eno z\u00edska\u0165 granule, pelety alebo vlo\u010dky; hoci spracovan\u00e9 mikr\u00f3nov\u00e9 \u010dastice s ve\u013ek\u00fdm povrchom a p\u00f3rovitos\u0165ou sa \u010dasto pou\u017e\u00edvaj\u00fa ako adsorbent na odstr\u00e1nenie endotox\u00ednov alebo bakt\u00e9ri\u00ed z vodn\u00e9ho prostredia.<\/p>\n
Hlin\u00edk m\u00f4\u017ee sl\u00fa\u017ei\u0165 ako ide\u00e1lny podklad pre keramick\u00e9 obklady. V\u010faka svojej tvrdosti a n\u00edzkej odolnosti vo\u010di chemick\u00fdm vplyvom je oxid hlinit\u00fd vynikaj\u00facim z\u00e1kladn\u00fdm materi\u00e1lom pre dla\u017edice, pre vymurovky pec\u00ed odoln\u00e9 vo\u010di oderu, pre priechodky medzi keramikou a kovom, ako aj pre povlaky r\u00f6ntgenov\u00fdch trub\u00edc a elektr\u00f3nov\u00fdch mikroskopov.<\/p>\n
Oxid hlinit\u00fd sa vo ve\u013ekej miere vyu\u017e\u00edva pri v\u00fdrobe mikro\u010dipov a in\u00fdch elektronick\u00fdch zariaden\u00ed v\u010faka svojej odolnosti vo\u010di chemick\u00fdm \u00fatokom, n\u00edzkej elektrickej vodivosti a vysokej teplote topenia\/varenia. Okrem toho tento materi\u00e1l zohr\u00e1va neoddelite\u013en\u00fa \u00falohu aj pri v\u00fdrobe sol\u00e1rnych \u010dl\u00e1nkov a sveteln\u00fdch di\u00f3d.<\/p>\n
Pr\u00e1\u0161kov\u00fd oxid hlinit\u00fd je neoddelite\u013enou surovinou v mnoh\u00fdch r\u00f4znych priemyseln\u00fdch odvetviach a aplik\u00e1ci\u00e1ch, od priemyseln\u00fdch rezn\u00fdch n\u00e1strojov a\u017e po elektroizola\u010dn\u00e9 materi\u00e1ly. Hlavn\u00e9 pou\u017eitie oxidu hlinit\u00e9ho je na rezn\u00e9 n\u00e1stroje v priemysle, ako aj ako s\u00fa\u010das\u0165 elektroizola\u010dn\u00fdch materi\u00e1lov; \u010fal\u0161ie pou\u017eitie m\u00f4\u017ee zah\u0155\u0148a\u0165 le\u0161tenie drah\u00fdch kame\u0148ov v\u010faka jeho tvrdosti a chemickej odolnosti; okrem toho s\u00fa k dispoz\u00edcii r\u00f4zne ve\u013ekosti a distrib\u00facie ve\u013ekosti \u010dast\u00edc oxidu hlinit\u00e9ho v z\u00e1vislosti od jednotliv\u00fdch aplik\u00e1ci\u00ed Inova\u010dn\u00e9 centr\u00e1 FEECO m\u00f4\u017eu pom\u00f4c\u0165 ur\u010di\u0165, ktor\u00e9 pr\u00e1\u0161ky oxidu hlinit\u00e9ho sa najlep\u0161ie hodia na konkr\u00e9tne \u00falohy.<\/p>\n
Existuj\u00fa dve z\u00e1kladn\u00e9 formy pr\u00e1\u0161kov\u00e9ho aktivovan\u00e9ho oxidu hlinit\u00e9ho: gu\u013eovit\u00e9 pelety aktivovan\u00e9ho oxidu hlinit\u00e9ho a granulovan\u00fd aktivovan\u00fd oxid hlinit\u00fd. Z t\u00fdchto dvoch mo\u017enost\u00ed je prv\u00e1 z nich vo v\u0161eobecnosti ide\u00e1lnej\u0161ia z h\u013eadiska konzistentn\u00fdch prietokov a zn\u00ed\u017een\u00fdch tlakov\u00fdch str\u00e1t v syst\u00e9moch, do ktor\u00fdch s\u00fa integrovan\u00e9; okrem toho maj\u00fa hladk\u00fd povrch, ktor\u00fd minimalizuje abr\u00e1ziu a tvorbu prachu, a manipul\u00e1cia s nimi je ove\u013ea jednoduch\u0161ia ako s ich granulovan\u00fdm n\u00e1protivkom.<\/p>\n
Bayerov proces je hlavn\u00fdm sp\u00f4sobom v\u00fdroby pr\u00e1\u0161kov\u00e9ho oxidu hlinit\u00e9ho. Pri tejto technike sa na extrakciu miner\u00e1lov na b\u00e1ze oxidu hlinit\u00e9ho z bauxitovej rudy pou\u017e\u00edva kaustick\u00e1 s\u00f3da pod tlakom a za tepla. Po extrakcii sa tento pr\u00e1\u0161ok mus\u00ed \u010falej rafinova\u0165, aby sa odstr\u00e1nili ne\u010distoty a vlhkos\u0165; po spracovan\u00ed sa z\u00edskaj\u00fa v\u00fdnimo\u010dn\u00e9 elektrick\u00e9 vlastnosti vr\u00e1tane n\u00edzkej elektrickej vodivosti, vysokej pevnosti a extr\u00e9mnej tvrdosti (9 na Mohsovej stupnici).<\/p>\n
Pr\u00e1\u0161ok oxidu hlinit\u00e9ho sa nach\u00e1dza v mnoh\u00fdch v\u00fdrobkoch, od br\u00fasnych materi\u00e1lov a keramiky a\u017e po \u017eiaruvzdorn\u00e9 materi\u00e1ly a elektronick\u00e9 s\u00fa\u010diastky. Oxid hlinit\u00fd sa \u010dasto pou\u017e\u00edva ako z\u00e1kladn\u00fd prvok pri v\u00fdrobe polovodi\u010dov a m\u00f4\u017ee sa tie\u017e pochv\u00e1li\u0165 vynikaj\u00facimi vlastnos\u0165ami tepeln\u00e9ho odporu, v\u010faka ktor\u00fdm je u\u017eito\u010dn\u00fd ako chladi\u010d.<\/p>\n
Korund je z\u00e1kladn\u00fd miner\u00e1l pou\u017e\u00edvan\u00fd pri v\u00fdrobe drah\u00fdch kame\u0148ov, ako s\u00fa zaf\u00edry a rub\u00edny, a zohr\u00e1va tie\u017e d\u00f4le\u017eit\u00fa \u00falohu pri v\u00fdrobe skla pri vysok\u00fdch teplot\u00e1ch. Okrem toho sa svojou tvrdos\u0165ou vyrovn\u00e1 diamantom, tak\u017ee je u\u017eito\u010dn\u00fd na le\u0161tenie drah\u00fdch kame\u0148ov.<\/p>\n
Hlin\u00edk sa m\u00f4\u017ee pou\u017e\u00edva\u0165 aj ako plnivo do plastov a gumy na zlep\u0161enie mechanick\u00fdch vlastnost\u00ed a ako spojivo v keramike na zv\u00fd\u0161enie pevnosti a stability. Pri prid\u00e1van\u00ed do gumov\u00fdch zmes\u00ed zvy\u0161uje odolnos\u0165 proti opotrebovaniu, zatia\u013e \u010do jeho tepeln\u00e9 vlastnosti pom\u00e1haj\u00fa zlep\u0161i\u0165 elektroizola\u010dn\u00e9 vlastnosti.<\/p>","protected":false},"excerpt":{"rendered":"
Activated alumina Activated alumina is an aluminium oxide form with an exceptionally large surface area. Through activation, its crystalline structure […]<\/p>","protected":false},"author":1,"featured_media":0,"comment_status":"closed","ping_status":"closed","sticky":false,"template":"","format":"standard","meta":{"site-sidebar-layout":"default","site-content-layout":"","ast-site-content-layout":"","site-content-style":"default","site-sidebar-style":"default","ast-global-header-display":"","ast-banner-title-visibility":"","ast-main-header-display":"","ast-hfb-above-header-display":"","ast-hfb-below-header-display":"","ast-hfb-mobile-header-display":"","site-post-title":"","ast-breadcrumbs-content":"","ast-featured-img":"","footer-sml-layout":"","theme-transparent-header-meta":"","adv-header-id-meta":"","stick-header-meta":"","header-above-stick-meta":"","header-main-stick-meta":"","header-below-stick-meta":"","astra-migrate-meta-layouts":"default","ast-page-background-enabled":"default","ast-page-background-meta":{"desktop":{"background-color":"var(--ast-global-color-4)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-gradient":""},"tablet":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-gradient":""},"mobile":{"background-color":"","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-gradient":""}},"ast-content-background-meta":{"desktop":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-gradient":""},"tablet":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-gradient":""},"mobile":{"background-color":"var(--ast-global-color-5)","background-image":"","background-repeat":"repeat","background-position":"center center","background-size":"auto","background-attachment":"scroll","background-type":"","background-media":"","overlay-type":"","overlay-color":"","overlay-gradient":""}},"footnotes":""},"categories":[3],"tags":[],"class_list":["post-757","post","type-post","status-publish","format-standard","hentry","category-knowledge"],"aioseo_notices":[],"_links":{"self":[{"href":"https:\/\/artehistoria.net\/sk\/wp-json\/wp\/v2\/posts\/757","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/artehistoria.net\/sk\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/artehistoria.net\/sk\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/artehistoria.net\/sk\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/artehistoria.net\/sk\/wp-json\/wp\/v2\/comments?post=757"}],"version-history":[{"count":1,"href":"https:\/\/artehistoria.net\/sk\/wp-json\/wp\/v2\/posts\/757\/revisions"}],"predecessor-version":[{"id":758,"href":"https:\/\/artehistoria.net\/sk\/wp-json\/wp\/v2\/posts\/757\/revisions\/758"}],"wp:attachment":[{"href":"https:\/\/artehistoria.net\/sk\/wp-json\/wp\/v2\/media?parent=757"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/artehistoria.net\/sk\/wp-json\/wp\/v2\/categories?post=757"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/artehistoria.net\/sk\/wp-json\/wp\/v2\/tags?post=757"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}