---
type: "product_component"
title: "Ceramic Tile Press"
industry: "Non-Metallic Mineral Product Manufacturing"
verification_protocol:
  urn: "URN:CNFX:ME:CERAMIC_TILE_PRESS"
  data_integrity_hash: "51a796d9b910a946c7f653bb7cefe838"
  source_authority: "https://cnfx.com"
  strict_mode: true
source_identity:
  provider: "CNFX Industrial Knowledge Graph"
  index_version: "2026.Q1-Universal"
  authority_id: "URN:CNFX:ME:CERAMIC_TILE_PRESS"
  data_source_uri: "https://cnfx.com/llms/industry/non-metallic-mineral-product-manufacturing/product/ceramic-tile-press.md"
  official_resource_url: "https://cnfx.com/industry/non-metallic-mineral-product-manufacturing/product/ceramic-tile-press"
  is_verified_logic: true
attributes:
  pressure:
    status: "config-dependent"
    typical_range: "1.5-3.0 bar"
    unit: "ton"
  cycle_time:
    status: "config-dependent"
    typical_range: "15-35 MPa hydraulic pressure, 20-80°C operating temperature, 0.5-2.0 mm/s pressing speed"
    unit: "seconds"
engineering_limits:
  max_safe_operating_point:
    value: 42
    unit: "MPa"
    consequence: "Seal failure occurs via extrusion through clearance gaps exceeding 0.05 mm at pressures above 42 MPa (following Hooke's Law with EPDM rubber modulus of 7.5 MPa). Clay powder compaction failure occurs when hydraulic pressure drops below 15 MPa, creating insufficient compaction density (<1.8 g/cm³) for proper sintering."
fmea_matrix_quantitative:
  - node_1:
      trigger: "Hydraulic fluid contamination exceeding ISO 4406 18/16/13 cleanliness level"
      severity: 8
      occurrence: 3
      detection: 4
      mitigation_protocol: "Install 3 μm absolute filtration with differential pressure monitoring at 0.3 bar trigger"
  - node_2:
      trigger: "Uneven platen heating creating >5°C/mm thermal gradient across 600 mm platen"
      severity: 8
      occurrence: 3
      detection: 4
      mitigation_protocol: "Implement 12-zone resistive heating with PID control maintaining ±1°C uniformity"
bom_nodes:
  hydraulic-power-unit:
    type: "part"
    llms_uri: "https://cnfx.com/llms/industry/machinery-and-equipment-manufacturing/product/hydraulic-power-unit.md"
    link_type: "product"
    link_target_urn: "URN:CNFX:ME:HYDRAULIC_POWER_UNIT"
    urn: "URN:CNFX:ME:HYDRAULIC_POWER_UNIT"
    interface_type: "physical-logic-coupled"
    is_standalone: true
  main-frame:
    type: "component"
    llms_uri: "https://cnfx.com/llms/industry/machinery-and-equipment-manufacturing/component/main-frame.md"
    link_type: "part"
    link_target_urn: "URN:CNFX:ME:UNIT:MAIN_FRAME"
    urn: "URN:CNFX:ME:UNIT:MAIN_FRAME"
    interface_type: "physical-logic-coupled"
    is_migrated_part: true
  mold-assembly:
    type: "part"
    llms_uri: "https://cnfx.com/llms/industry/non-metallic-mineral-product-manufacturing/product/mold-assembly.md"
    link_type: "product"
    link_target_urn: "URN:CNFX:ME:MOLD_ASSEMBLY"
    urn: "URN:CNFX:ME:MOLD_ASSEMBLY"
    interface_type: "physical-logic-coupled"
    is_standalone: true
  control-system:
    type: "device"
    llms_uri: "https://cnfx.com/llms/industry/machinery-and-equipment-manufacturing/product/control-system.md"
    link_type: "product"
    link_target_urn: "URN:CNFX:ME:CONTROL_SYSTEM"
    urn: "URN:CNFX:ME:CONTROL_SYSTEM"
    interface_type: "physical-logic-coupled"
    is_standalone: true
  powder-feeder:
    type: "part"
    llms_uri: "https://cnfx.com/llms/industry/non-metallic-mineral-product-manufacturing/product/powder-feeder.md"
    link_type: "product"
    link_target_urn: "URN:CNFX:ME:POWDER_FEEDER"
    urn: "URN:CNFX:ME:POWDER_FEEDER"
    interface_type: "physical-logic-coupled"
    is_standalone: true
manufacturing_compliance:
  - standard: "ISO 13006:2018 - CERAMIC TILES - DEFINITIONS, CLASSIFICATION, CHARACTERISTICS AND MARKING"
    scope: "Verified Engineering Specification"
  - standard: "DIN EN 14411:2016 - CERAMIC TILES - DEFINITIONS, CLASSIFICATION, CHARACTERISTICS AND MARKING"
    scope: "Verified Engineering Specification"
url: "https://cnfx.com/llms/industry/non-metallic-mineral-product-manufacturing/product/ceramic-tile-press.md"
on_chain_sovereignty:
  contract_standard: "ERC-721-Industrial"
  metadata_hash: "c5f4c7cbc50a3e42556515e41bd307064ca38be43541ec8f6d86dac67a819447"
  royalty_logic: "IPFS-CID-REQUIRED"
  mint_status: "logic-verified-ready"
rag_vector_index:
  semantic_queries:
    - "Ceramic Tile Press"
    - "hydraulic ceramic tile press machine"
    - "automatic ceramic tile forming press"
    - "industrial clay powder tile press"
    - "high-pressure ceramic tile manufacturing equipment"
    - "ceramic tile press with powder feeder"
    - "Ceramic Tile Press in "
    - "China Ceramic Tile Press manufacturer"
    - "Ceramic Tile Press supplier China"
    - "Ceramic Tile Press pressure"
    - "Ceramic Tile Press cycle_time"

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    "@type": "IndividualProduct",
    "name": "Ceramic Tile Press",
    "description": "Hydraulic press for forming ceramic tiles from clay powder",
    "identifier": "URN:CNFX:ME:CERAMIC_TILE_PRESS",
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version: "3.3.5-EXTREME-SOVEREIGN-WEB3"
---

# Industrial Specification: Ceramic Tile Press

## 1. Technical Definition
Hydraulic press for forming ceramic tiles from clay powder

## 2. Engineering Reasoning & Causal Matrix
> **Operational Intelligence**: Designed for **15-35 MPa hydraulic pressure, 20-80°C operating temperature, 0.5-2.0 mm/s pressing speed**. Failure boundary: **Hydraulic pressure exceeding 42 MPa causes seal extrusion failure, temperature below 15°C increases clay viscosity beyond 5000 Pa·s, pressing speed above 3.0 mm/s creates shear-induced cracking**, Mechanism: **Seal failure occurs via extrusion through clearance gaps exceeding 0.05 mm at pressures above 42 MPa (following Hooke's Law with EPDM rubber modulus of 7.5 MPa). Clay powder compaction failure occurs when hydraulic pressure drops below 15 MPa, creating insufficient compaction density (&lt;1.8 g/cm³) for proper sintering.**.

### 2.1 Analytical Physics Model
Governed by the **Thin-Wall Pressure Vessel Stress Analysis**:

> **Primary Equation**: $\sigma_h = \frac{P \cdot D}{2t}$  
> **Engineering Impact**: Determines the hoop stress boundary to prevent rupture.

| Symbol | Variable Definition | Localized Reference |
| :--- | :--- | :--- |
| P | Internal Pressure | Engineering Constant |
| D | Diameter | Engineering Constant |
| t | Wall Thickness | Engineering Constant |

### 2.2 FMEA (Failure Mode & Effects Analysis)
| Event Trigger | Severity | Failure Mode | Mitigation Strategy |
| :--- | :--- | :--- | :--- |
| Hydraulic fluid contamination exceeding ISO 4406 18/16/13 cleanliness level | 8 | Servo valve spool sticking causing pressure oscillations ±5 MPa from setpoint | Install 3 μm absolute filtration with differential pressure monitoring at 0.3 bar trigger |
| Uneven platen heating creating &gt;5°C/mm thermal gradient across 600 mm platen | 8 | Differential thermal expansion causing 0.1 mm platen deflection and tile thickness variation &gt;0.05 mm | Implement 12-zone resistive heating with PID control maintaining ±1°C uniformity |

## 3. Key Technical Parameters
| Parameter | Value | Unit | Status |
| :--- | :--- | :--- | :--- |
| pressure | Config-dependent | ton | Verified |
| cycle_time | Config-dependent | seconds | Verified |

## 4. System BOM & Knowledge Routing
### Core Components (Recursive Links)
- [Hydraulic Power Unit](https://cnfx.com/llms/industry/machinery-and-equipment-manufacturing/product/hydraulic-power-unit.md) `(Standalone System)`
- [Mold Assembly](https://cnfx.com/llms/industry/non-metallic-mineral-product-manufacturing/product/mold-assembly.md) `(Standalone System)`
- [Control System](https://cnfx.com/llms/industry/machinery-and-equipment-manufacturing/product/control-system.md) `(Standalone System)`
- [Powder Feeder](https://cnfx.com/llms/industry/non-metallic-mineral-product-manufacturing/product/powder-feeder.md) `(Standalone System)`

### Industrial DNA Context (De-duplicated)
**Complementary Dependencies**: **Clay Powder Mixer**, **Tile Drying Oven**, **Tile Glazing Line**  
**Downstream Applications**: Floor Tiles, Wall Tiles, Porcelain Tiles  

## 5. Engineering Risks & FAQ
- **Caution**: 
- **Caution**: 
- **Caution**: 

### Q: What is the maximum pressure capacity of this ceramic tile press?
**A**: The press delivers maximum pressure measured in tons (specific tonnage depends on model configuration), ensuring dense, uniform tile formation from clay powder.

### Q: How does the powder feeding system work in this tile press?
**A**: An integrated powder hopper and feeder system automatically distributes precise amounts of clay powder into the mold assembly, ensuring consistent tile thickness and material efficiency.

### Q: What maintenance is required for the hydraulic system?
**A**: Regular maintenance includes checking hydraulic fluid levels, inspecting cylinders for leaks, and monitoring the hydraulic power unit's pressure settings to ensure optimal performance and longevity.

## 6. Manufacturing Compliance
- ISO 13006:2018 - CERAMIC TILES - DEFINITIONS, CLASSIFICATION, CHARACTERISTICS AND MARKING
- DIN EN 14411:2016 - CERAMIC TILES - DEFINITIONS, CLASSIFICATION, CHARACTERISTICS AND MARKING

---
### 🛠️ Engineering Resource Access
🔗 **[Full Specification: Ceramic Tile Press](https://cnfx.com/industry/non-metallic-mineral-product-manufacturing/product/ceramic-tile-press)**

### 🌐 Knowledge Graph Topology
> **Node Status**: Verified Engineering Spec
> **Connectivity**: Linked to **5** standalone system nodes
> **Global Context**: Part of a 5,814 node industrial cluster within the CNFX Graph

> **Reference ID**: CERAMIC_TILE_PRESS | **Authority**: CNFX-2026-ST-001 | **Fingerprint**: 51870e9f