{"id":10239,"date":"2026-06-10T18:07:05","date_gmt":"2026-06-10T18:07:05","guid":{"rendered":"https:\/\/goldensoarpackage.com\/en\/shipping-packaging-materials-report\/"},"modified":"2026-06-10T18:07:05","modified_gmt":"2026-06-10T18:07:05","slug":"shipping-packaging-materials-report","status":"publish","type":"post","link":"https:\/\/goldensoarpackage.com\/en\/shipping-packaging-materials-report\/","title":{"rendered":"Shipping Packaging Materials Research Report"},"content":{"rendered":"<style>\n            div.magazine-style-content {\n                font-family: Arial, Helvetica, sans-serif; \n                color: #333333;\n                line-height: 1.6;\n                font-size: 15px;\n                max-width: 850px; \n                margin: 0 auto;\n                padding: 20px 0;\n            }<\/p>\n<p>            \/* \u5f3a\u5236\u9547\u538b\u4e3b\u9898\u7684 H2 \u6837\u5f0f\uff0c\u593a\u56de\u84dd\u8272\u4e0b\u5212\u7ebf\u63a7\u5236\u6743 *\/\n            div.magazine-style-content h2 { \n                font-family: Arial, Helvetica, sans-serif !important;\n                color: #1f497d !important; 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font-size: 16px !important; margin-top: 0 !important; margin-bottom: 10px !important; text-transform: uppercase !important; }<\/p>\n<p>            \/* UI\u7ec4\u4ef62\uff1aKey Takeaways *\/\n            div.magazine-style-content .ui-takeaway-box {\n                background-color: #fef7f1 !important;\n                border: 1px solid #fbdab5 !important;\n                padding: 20px !important;\n                margin: 30px 0 !important;\n            }\n            div.magazine-style-content .ui-takeaway-box h3 { color: #e36c09 !important; font-size: 16px !important; margin-top: 0 !important; margin-bottom: 15px !important; }<\/p>\n<p>            \/* UI\u7ec4\u4ef63\uff1aPro-Tip *\/\n            div.magazine-style-content .ui-blue-box {\n                background-color: #f2f7fc !important;\n                border: 1px solid #c6d9f1 !important;\n                padding: 20px !important;\n                margin: 30px 0 !important;\n            }\n            div.magazine-style-content .ui-blue-box h3 { color: #1f497d !important; font-size: 16px !important; margin-top: 0 !important; margin-bottom: 15px !important; }<\/p>\n<p>            \/* \u8868\u683c 1:1 \u8fd8\u539f *\/\n            div.magazine-style-content table { width: 100% !important; border-collapse: collapse !important; margin: 30px 0 !important; font-size: 14px !important; border: 1px solid #d9d9d9 !important; }\n            div.magazine-style-content th { background-color: #243f60 !important; color: #ffffff !important; font-weight: bold !important; padding: 12px 15px !important; text-align: left !important; border: 1px solid #d9d9d9 !important; }\n            div.magazine-style-content td { padding: 12px 15px !important; border: 1px solid #d9d9d9 !important; color: #333 !important; }\n            div.magazine-style-content tr:nth-child(even) { background-color: #f2f2f2 !important; }\n            div.magazine-style-content tr:nth-child(odd) { background-color: #ffffff !important; }<\/p>\n<p>            div.magazine-style-content img { max-width: 100% !important; height: auto !important; display: block !important; margin: 30px auto !important; }<\/p>\n<p>            \/* FAQ \u533a\u57df\u8fd8\u539f *\/\n            div.magazine-style-content h3.faq-question { color: #c00000 !important; font-size: 16px !important; margin-top: 30px !important; margin-bottom: 10px !important; }\n            div.magazine-style-content p.faq-answer { margin-bottom: 25px !important; }\n        <\/style>\n<div class='magazine-style-content'>\n<h1>Shipping Packaging Materials Research Report<\/h1>\n<p><strong>Reference Standard:<\/strong> Relevant material and performance testing standards include ISO 9001 quality management principles, ASTM D1693 environmental stress-cracking evaluation for polyethylene, and practical packaging validation methods used for leakage, dimensional control, surface protection, and export handling.<\/p>\n<h2>Short Answer<\/h2>\n<p><div class=\"ui-short-answer\">\nShipping and packaging materials should not be evaluated only by resin name. PE, PET, and PP packaging behave differently after filling, during pump or cap assembly, inside export cartons, and during warehouse transfer, so the practical control point is the sequence of contact, support, and movement before the product reaches the customer.\n<\/div>\n<\/p>\n<p>Shipping and packaging materials for personal care, cosmetic, cleaning, and refillable products must survive more than the first visual inspection. A bottle may look clean, glossy, and shelf-ready after molding, decoration, and pump assembly, yet still be vulnerable once it enters short-term staging, carton loading, layered packing, and long-distance export movement. This research report studies the transition from filling room behavior to export carton planning, using PE, PET, and PP packaging data as the factual base.<\/p>\n<p>The central issue is not whether one polymer is broadly \u201cgood\u201d or \u201cbad.\u201d PE bottle bodies, PET transparent containers, PP pumps, PP flip-top caps, and reusable outer cases each carry a different role in the movement chain. A rigid cap can press into a soft bottle shoulder. A transparent PET surface can show contact marks that were invisible during line inspection. A pump that seals correctly on a calibrated neck can still become a protruding contact point inside a carton. A refillable structure can be stable in hand but still need controlled orientation before bulk shipment.<\/p>\n<h2>From Filling Room to Export Carton: Where Packaging Materials Start Losing Control<\/h2>\n<p>The first risk window begins after the container leaves the molding or assembly process but before it is protected inside its final export pack. This short interval is easy to underestimate because it looks operational rather than technical. In reality, the material has already entered a new stress condition. PE, PET, and PP no longer behave as isolated resin categories; they begin to behave as filled, capped, decorated, and stacked packaging units.<\/p>\n<p>For PE packaging, the cataloged material range includes HDPE at <strong>0.93-0.97 g\/cm3<\/strong> and LDPE at <strong>0.91-0.94 g\/cm3<\/strong>. That density difference matters because HDPE contributes rigidity and stacking strength, while LDPE contributes squeezability and flexibility. After filling, a PE squeeze bottle may be more sensitive to temporary side contact than an empty sample because the internal mass changes how the wall responds to line pressure, operator handling, and short staging. A soft body that feels premium in hand can flatten slightly when placed against another component before cartons are prepared.<\/p>\n<p>PET packaging enters the same transition zone from a different direction. The available PET data highlights <strong>92% light transmission<\/strong>, <strong>Recycling Code #1<\/strong>, and single-stage <strong>Injection Stretch Blow Molding<\/strong>. PET is valued when the product needs a glass-like look with lower breakage and lower shipping weight than glass, but that clarity also makes surface contact more visible. During the filling-to-carton interval, even harmless contact between units can become a cosmetic issue if the package is meant to signal premium cleanliness.<\/p>\n<p>PP packaging usually appears as the pump, cap, threaded part, hinge, or outer supporting structure. PP is noted for heat resistance up to <strong>120\u00b0C<\/strong>, a melting point of <strong>160\u00b0C-170\u00b0C<\/strong>, and the ability to form complex injection-molded geometries such as threads, snap-fits, and pump engines. After assembly, those PP parts can become the first contact point in a tray or carton. The material may be strong, but its geometry can transmit pressure into a softer PE body or into a visible PET wall.<\/p>\n<p><img decoding=\"async\" alt=\"shipping packaging materials filling-to-carton transition with plastic bottles and pump components before export packing\" src=\"https:\/\/goldensoarpackage.com\/wp-content\/uploads\/2025\/08\/DSC01485.jpg\" \/><\/p>\n<p>A useful edge-condition model is the <strong>three-stage staging model<\/strong>. In the initial stage, filled containers are still visually stable, and most problems are hidden because contact time is short. In the middle stage, repeated repositioning or temporary stacking makes the highest protruding component, usually a pump, cap edge, shoulder, or outer case corner, the first stress marker. In the limit stage, small misalignment becomes visible as scuffing, pump tilt, neck strain, or uneven box loading. This model does not require adding a new laboratory threshold; it translates real material behavior into a factory movement timeline.<\/p>\n<p>A cross-dimensional comparison shows why the same visual inspection rule cannot cover all three polymers. A PE squeeze bottle should be reviewed for body recovery and wall support after handling. A PET bottle should be reviewed for visible surface preservation. A PP pump or cap should be reviewed for alignment, thread fit, and protruding geometry before carton closure. The same carton movement can therefore create three different concerns: deformation memory, visible marking, and component pressure transfer.<\/p>\n<h2>Shelf-Ready but Not Warehouse-Ready: The Hidden Gap Between Retail Look and Transit Behavior<\/h2>\n<p>A shelf-ready package is designed to look finished. A warehouse-ready package must stay controlled when it is no longer treated as a single display item. This difference is often missed in packaging discussions because the final sample is usually inspected on a table, not inside a layered export carton with neighboring units, dividers, and handling movement.<\/p>\n<p>For PET, the catalog emphasizes transparent premium appearance and the shift from glass to heavy-wall PET to reduce breakage and shipping weight. That makes sense for retail positioning, but warehouse behavior asks a different question: can the visible wall avoid avoidable contact before the customer sees it? The material can deliver clarity, but the carton plan must reduce surface-to-surface rubbing. The catalog also notes individual polybagging for premium heavy-wall PET items or layer packing with dividers, plus robotic pick-and-place systems to reduce surface contact during production. These details matter because they treat surface preservation as a handling sequence, not just a resin property.<\/p>\n<p>For PE, warehouse readiness depends more on load path and body support. LDPE flexibility makes a bottle easy to squeeze, while HDPE rigidity improves stacking strength for larger-volume containers. In a carton, however, the body shape, shoulder geometry, closure height, and neighboring unit orientation determine whether pressure is distributed across broad surfaces or concentrated into a narrow point. A 150 ml travel bottle and a 1000 ml detergent bottle are both PE packaging, but they do not ask for the same export layout.<\/p>\n<p>For PP, warehouse readiness is tied to component behavior. A PP flip-top cap, pump head, or outer case can perform well in hand yet still become a point of repeated contact if it faces another hard component inside the carton. PP can support precision molding and complex forms, but export planning must decide whether the PP part should face upward, inward, separated, or protected by a divider.<\/p>\n<table>\n<thead>\n<tr>\n<th>Transit Question<\/th>\n<th>PE Packaging Behavior<\/th>\n<th>PET Packaging Behavior<\/th>\n<th>PP Component Behavior<\/th>\n<\/tr>\n<\/thead>\n<tbody>\n<tr>\n<td>Short staging before boxing<\/td>\n<td>Body may compress or lean under contact<\/td>\n<td>Clear wall may reveal marks quickly<\/td>\n<td>Pump or cap may become a contact point<\/td>\n<\/tr>\n<tr>\n<td>Layered carton placement<\/td>\n<td>Needs broad support and controlled orientation<\/td>\n<td>Needs surface isolation for premium appearance<\/td>\n<td>Needs spacing around protruding geometry<\/td>\n<\/tr>\n<tr>\n<td>Retail inspection outcome<\/td>\n<td>Shape and dispensing feel are visible<\/td>\n<td>Clarity and surface cleanliness dominate<\/td>\n<td>Alignment and cap\/pump function dominate<\/td>\n<\/tr>\n<tr>\n<td>Export handling concern<\/td>\n<td>Squeeze recovery and body support<\/td>\n<td>Contact visibility and display quality<\/td>\n<td>Pressure transfer into neighboring units<\/td>\n<\/tr>\n<tr>\n<td>Practical planning response<\/td>\n<td>Match body softness with divider support<\/td>\n<td>Use layer separation for visible walls<\/td>\n<td>Control orientation of pumps and closures<\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n<p>A practical extreme scenario is a <strong>retail-to-warehouse inversion<\/strong>. At the retail level, the front face, label area, and cap alignment receive attention. During warehouse handling, the load may pass through the shoulder, sidewall, pump head, or base instead. The part that sells the product visually is not always the part carrying the shipping load. This inversion explains why a carton that looks full and efficient may still be poorly designed for visible packaging materials.<\/p>\n<p>The cross-dimensional comparison is simple but important: a retail display test asks whether the packaging attracts trust at eye level, while a warehouse transition review asks whether the same unit remains unchanged when another unit, divider, or carton wall touches it repeatedly. The first is an appearance question. The second is a movement-control question.<\/p>\n<div class=\"ui-takeaway-box\">\n<h3>KEY TAKEAWAYS<\/h3>\n<ul>\n<li>A finished retail look does not prove the bottle is ready for layered carton movement.<\/li>\n<li>Protruding pumps, flip-top caps, and outer case edges can become hidden pressure-transfer points.<\/li>\n<li>Transparent or glossy surfaces require earlier separation planning than opaque utility packaging.\n<\/div>\n<\/li>\n<\/ul>\n<h2>Component Contact Order: Bottle Body, Pump, Cap, and Outer Case Are Not One Material<\/h2>\n<p>A complete package is usually described by its main body material, but export behavior is controlled by the order in which components touch each other. A PE bottle with a PP pump is not just a PE package. A refill system with a PE inner bottle and PP outer case is not only an eco-packaging format. A PET bottle with a pump or sprayer is not only a transparent container. Each component receives, transfers, exposes, or amplifies contact in a different way.<\/p>\n<p>The most useful order is <strong>first-loaded part, force-transfer part, exposed appearance part, and user-touch part<\/strong>. The first-loaded part is the component that touches a tray, divider, neighboring package, or carton wall before anything else. In pump bottles, this may be the pump head. In squeeze bottles, it may be the shoulder or sidewall. In refillable systems, it may be the outer PP case. The force-transfer part is the bridge that moves that pressure into the neck, thread, body, or base. The exposed appearance part is the surface the customer sees after opening. The user-touch part is the piece that defines first-use confidence.<\/p>\n<p>This sequence is especially important with mixed PE and PP assemblies. The catalog includes PE bottle bodies with PP pump heads, PP lids, PP outer cases, and PP pump structures. PP can be molded into threaded caps, snap-fits, living hinges, and complex pump engines. PE can provide chemical resistance, squeeze behavior, and refillable bottle utility. When these parts are assembled, the PP component often has greater local rigidity than the PE body. If carton design allows a PP pump or lid to press into a neighboring PE surface, the weaker visible symptom may appear on the PE body even though the original contact point was the PP component.<\/p>\n<p>PET assemblies require another interpretation. PET clarity is valuable because it supports premium appearance, but that also means the exposed appearance part may have a lower tolerance for visible contact traces. The calibrated neck finish can support leak-proof sealing with pumps and sprayers, yet the visible wall still needs separation if the product is sold on clarity.<\/p>\n<p><img decoding=\"async\" alt=\"component contact order in shipping and packaging materials for pump bottles, refillable structures, and mixed plastic components\" src=\"https:\/\/goldensoarpackage.com\/wp-content\/uploads\/2025\/08\/airless-pump-bottles.png\" \/><\/p>\n<p>An edge-condition model for component order can be framed as a <strong>four-contact sequence<\/strong>. In the first phase, the protruding or hardest component touches another unit. In the second phase, the contact force transfers toward a neck, shoulder, or sidewall. In the third phase, the visible surface records the contact as a mark, lean, indentation, or alignment shift. In the final phase, the end user interprets the symptom as poor packaging quality, even if the material was technically suitable.<\/p>\n<p>A cross-dimensional comparison helps prevent wrong blame. If a lotion pump leaks after shipment, the cause is not always the pump resin. It may be neck calibration, carton movement, pump orientation, or cap protection. If a PET wall shows marks, the issue is not always PET weakness. It may be insufficient separation. If a PE bottle looks slightly compressed after opening, the issue may come from body softness combined with tight carton packing. The practical control method is to map component contact before approving the export pack.<\/p>\n<p>A relevant internal example can be studied through <a href=\"https:\/\/goldensoarpackage.com\/laundry-detergent-bottle-cute-plastic-bottle\/\">laundry detergent bottle packaging<\/a>, where a larger PE body and dispensing structure require attention to both product capacity and handling stability. For smaller personal care formats, <a href=\"https:\/\/goldensoarpackage.com\/cosmetic-pump-bottles-essential-oil-bottles\/\">cosmetic pump bottle applications<\/a> illustrate how the pump, neck, and visible package surface interact as a finished unit. For personal care display formats, <a href=\"https:\/\/goldensoarpackage.com\/shower-gel-bottle-wholesale-lotion-bottles\/\">shower gel and lotion bottle packaging<\/a> shows why visual appearance and dispensing components cannot be separated during export planning.<\/p>\n<h2>Export Pack Planning as a Sequence Problem, Not a Material Claim<\/h2>\n<p>Export pack planning should begin with sequence, not a general claim that a resin is durable, recyclable, clear, or heat resistant. The better order is: confirm product use, confirm components, confirm contact surfaces, and confirm movement space inside the carton. This order turns material data into a practical packaging decision.<\/p>\n<p><strong>Solution 1: Confirm use-case temperature before assigning carton priority.<\/strong><br \/>\nExecution Protocol: Start by separating products filled, stored, or shipped under different temperature expectations. Standard PET should not be treated like PP when heat is part of the process, because standard PET can deform above <strong>60\u00b0C<\/strong>, while PP can withstand higher temperature conditions and is associated with hot-filling applications at <strong>85\u00b0C-95\u00b0C<\/strong>. PE should be positioned according to whether the bottle body needs rigidity, squeezability, or chemical resistance. The carton plan should avoid placing heat-sensitive and rigid components in a way that creates secondary pressure during warm warehouse exposure.<\/p>\n<p>Expected Material Evolution: With temperature-aware sequencing, PET packages are less likely to enter unsuitable hot-fill or warm-staging situations. PP components remain assigned to roles where their higher thermal stability is useful. PE bodies are reviewed for the actual formula and handling condition rather than treated as interchangeable plastic bottles.<\/p>\n<p>Hidden Cost and Risk Avoidance: The cost is extra sorting logic before packing. The risk is overcomplicating the warehouse process. The countermeasure is to use simple batch labels: heat-sensitive visible packaging, pump-protected packaging, flexible body packaging, and rigid component packaging.<\/p>\n<p><strong>Solution 2: Control the first contact point before choosing the divider.<\/strong><br \/>\nExecution Protocol: Before carton approval, identify the first contact point for each package orientation. The pump head, flip-top lid, bottle shoulder, transparent sidewall, base, or outer case may be the first loaded part. Divider selection should follow this contact map. A divider that protects the label but ignores the pump head is incomplete.<\/p>\n<p>Expected Material Evolution: The visible surface remains more stable because contact is moved away from vulnerable display areas. PE bodies receive broader support. PET walls have fewer direct contact opportunities. PP pumps and caps are less likely to transmit point pressure into another unit.<\/p>\n<p>Hidden Cost and Risk Avoidance: Extra divider planning can reduce carton density. Avoid this by separating premium visible packages from utility packages rather than applying the same protection level to every SKU.<\/p>\n<p><strong>Solution 3: Treat calibrated necks and molded closures as export alignment features.<\/strong><br \/>\nExecution Protocol: The catalog notes calibrated neck finishes for PET and precision injection molding for PP components. These should be treated as assembly and export alignment features, not only manufacturing achievements. During packing approval, check whether the closure remains upright, protected, and free from side pressure after simulated carton placement.<\/p>\n<p>Expected Material Evolution: Better alignment control reduces the chance that a good neck finish becomes compromised by shipment pressure. Pump and sprayer systems preserve their intended seal position, and threaded caps are less exposed to side contact.<\/p>\n<p>Hidden Cost and Risk Avoidance: The risk is slowing pack-out inspection. A practical countermeasure is sampling by carton layer and orientation rather than inspecting every unit in the same way.<\/p>\n<p><strong>Solution 4: Use surface separation selectively for visible packaging.<\/strong><br \/>\nExecution Protocol: Apply individual polybagging or layer packing with dividers where appearance value is high, especially for clear or premium visible packaging. The catalog already describes these options for premium heavy-wall PET items and mentions robotic pick-and-place systems to minimize surface contact. The export pack should continue that same logic after production.<\/p>\n<p>Expected Material Evolution: PET clarity and high-gloss appearance are better preserved. PE and PP components do not need the same surface strategy unless they form the visible retail face. This prevents overpacking while still protecting the customer-facing surface.<\/p>\n<p>Hidden Cost and Risk Avoidance: More protective packing increases material use and labor. Avoid unnecessary cost by linking protection level to the exposed appearance area, not to the entire SKU category.<\/p>\n<div class=\"ui-blue-box\">\n<h3>PRO-TIP \/ CHECKLIST<\/h3>\n<ol>\n<li>Identify the first-loaded component before approving the carton layout.<\/li>\n<li>Separate visible PET surfaces from hard pump or cap contact.<\/li>\n<li>Match PE body softness with divider support and carton density.<\/li>\n<li>Keep PP pumps, lids, and outer cases from pressing into neighboring bottle walls.<\/li>\n<li>Check whether the filling process, storage temperature, and resin behavior are aligned.<\/li>\n<li>Review carton layers by orientation, not only by unit count.<\/li>\n<li>Use surface protection where visual clarity or glossy presentation matters most.<\/li>\n<li>Confirm that internal links, product categories, and image alt text support the article angle without repeating old SEO patterns.\n<\/div>\n<\/li>\n<\/ol>\n<h2>Frequently Asked Questions (FAQ)<\/h2>\n<h3 class=\"faq-question\">How do I dispose of cold packaging materials?<\/h3>\n<p>Cold packaging materials should be separated by material type whenever possible. Plastic bottles, pumps, caps, liners, paper inserts, gel packs, and foam components may follow different local recycling or waste rules. Check the resin code, remove residue, and follow local disposal guidance rather than assuming all packaging belongs in one bin.<\/p>\n<h3 class=\"faq-question\">What is eco-friendly packaging material?<\/h3>\n<p>Eco-friendly packaging material is not defined by one label. It may involve recyclable resin, reduced material use, refillable design, PCR content, reusable outer cases, or lower breakage during shipping. For PE, PET, and PP packaging, the practical question is whether the material choice matches product chemistry, filling conditions, transport protection, and disposal route.<\/p>\n<h3 class=\"faq-question\">Are packaging materials taxable in Florida?<\/h3>\n<p>Tax treatment depends on the exact packaging use, buyer type, and local tax rule interpretation. Shipping cartons, retail packaging, and materials consumed in production may not be treated the same way. A company should verify the current Florida sales tax rule with a qualified tax professional or the official state revenue authority before making purchasing assumptions.<\/p>\n<h3 class=\"faq-question\">How to say packaging material in Spanish?<\/h3>\n<p>\u201cPackaging material\u201d is commonly translated as \u201cmaterial de embalaje\u201d or \u201cmaterial de empaque.\u201d In industrial export contexts, \u201cmaterial de embalaje\u201d often refers to shipping and transport packaging, while \u201cmaterial de empaque\u201d can also refer to retail or product packaging, depending on region and commercial context.<\/p>\n<h3 class=\"faq-question\">Is tissue paper a good material for packaging?<\/h3>\n<p>Tissue paper can be useful for light surface separation, presentation, and minor scuff reduction, but it is not a structural protection material. It should not replace dividers, carton design, pump protection, or surface isolation for heavy, glossy, liquid-filled, or export-packed plastic packaging.<\/p>\n<\/div>\n","protected":false},"excerpt":{"rendered":"<p>Shipping Packaging Materials Research Report Reference Standard: Relevant material and performance testing standards include ISO 9001 quality management principles, ASTM D1693 environmental stress-cracking evaluation for polyethylene, and practical packaging validation methods used for leakage, dimensional control, surface protection, and export handling. Short Answer Shipping and packaging materials should not be evaluated only by resin name. &#8230; <a title=\"Shipping Packaging Materials Research Report\" class=\"read-more\" href=\"https:\/\/goldensoarpackage.com\/en\/shipping-packaging-materials-report\/\" aria-label=\"Read more about Shipping Packaging Materials Research Report\">Read more<\/a><\/p>\n","protected":false},"author":1,"featured_media":0,"comment_status":"","ping_status":"","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"footnotes":""},"categories":[16],"tags":[161,450,59,397,460],"class_list":["post-10239","post","type-post","status-publish","format-standard","hentry","category-pe-packaging","tag-cosmetic-packaging","tag-export-packaging","tag-pe-packaging","tag-pet-packaging","tag-pp-packaging"],"acf":{"raw_html_content":""},"_links":{"self":[{"href":"https:\/\/goldensoarpackage.com\/en\/wp-json\/wp\/v2\/posts\/10239","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/goldensoarpackage.com\/en\/wp-json\/wp\/v2\/posts"}],"about":[{"href":"https:\/\/goldensoarpackage.com\/en\/wp-json\/wp\/v2\/types\/post"}],"author":[{"embeddable":true,"href":"https:\/\/goldensoarpackage.com\/en\/wp-json\/wp\/v2\/users\/1"}],"replies":[{"embeddable":true,"href":"https:\/\/goldensoarpackage.com\/en\/wp-json\/wp\/v2\/comments?post=10239"}],"version-history":[{"count":0,"href":"https:\/\/goldensoarpackage.com\/en\/wp-json\/wp\/v2\/posts\/10239\/revisions"}],"wp:attachment":[{"href":"https:\/\/goldensoarpackage.com\/en\/wp-json\/wp\/v2\/media?parent=10239"}],"wp:term":[{"taxonomy":"category","embeddable":true,"href":"https:\/\/goldensoarpackage.com\/en\/wp-json\/wp\/v2\/categories?post=10239"},{"taxonomy":"post_tag","embeddable":true,"href":"https:\/\/goldensoarpackage.com\/en\/wp-json\/wp\/v2\/tags?post=10239"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}