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Robotic Vacuum Gripper Market

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Robotic Vacuum Gripper Market Size, Share, Growth, and Industry Analysis, By Type (Miniature Electromechanical Pump, Compressed Air-Driven Pump), By Application Covered (Warehouse Logistics, Food, Manufacturing, Others) and Regional Forecast to 2032

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Last Updated: May 05 , 2025
Base Year: 2024
Historical Data: 2020-2023
No of Pages: 100
SKU ID: 27874769
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  • Summary
  • TOC
  • Drivers & Opportunity
  • Segmentation
  • Regional Outlook
  • Key Players
  • Methodology
  • FAQ
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Robotic Vacuum Gripper Market Size

The Robotic Vacuum Gripper Market was valued at USD 57 million in 2023 and is expected to reach USD 77.64 million in 2024, growing to USD 923.63 million by 2032, with a compound annual growth rate (CAGR) of 36.2% during the forecast period from 2024 to 2032.

The U.S. Robotic Vacuum Gripper Market is rapidly expanding due to growing automation in manufacturing and logistics sectors. Advancements in robotics and increasing demand for efficient material handling solutions are driving market growth across various industries.

Robotic Vacuum Gripper Market

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Robotic Vacuum Gripper Market Growth

The robotic vacuum gripper market has been experiencing significant growth over the past few years and is expected to continue expanding at an impressive rate in the coming years. Robotic vacuum grippers, which are integral components in robotic systems, enable machines to automate tasks such as cleaning and material handling in various industries. The increasing adoption of automation and the rising demand for precision in manufacturing, packaging, and logistics are driving the demand for robotic vacuum grippers. These systems offer unparalleled advantages in terms of efficiency, speed, and cost-effectiveness, making them a preferred choice for industries looking to optimize their operations.

One of the key factors propelling the growth of the robotic vacuum gripper market is the growing trend of industrial automation. Industries across the globe are gradually moving towards more automated processes to improve productivity and reduce operational costs. Robotic systems equipped with vacuum grippers are being used in manufacturing, logistics, and assembly lines to perform tasks such as product handling, sorting, and packaging. In particular, the automotive, electronics, and food and beverage sectors are increasingly relying on robotic systems to streamline their operations. These industries demand high precision and reliability, which robotic vacuum grippers provide, resulting in improved workflow and higher output.

Another driving factor is the continuous advancement in robotics technology. Innovations in robotics, such as enhanced artificial intelligence (AI), machine learning (ML), and real-time sensor technologies, have enabled robotic vacuum grippers to become more sophisticated and adaptable. The integration of these technologies allows robotic systems to perform complex tasks with greater accuracy and less human intervention. As the technology behind robotic vacuum grippers continues to evolve, the market is expected to see further expansion, with newer applications emerging across diverse industries.

The growing emphasis on safety and cleanliness in industrial and commercial settings is another factor contributing to the market’s growth. With the ongoing pandemic and increased awareness around hygiene, many industries are seeking automated solutions that can reduce human contact and maintain high standards of cleanliness. Robotic vacuum grippers play a critical role in industries such as food processing and pharmaceuticals, where hygiene and cleanliness are paramount. These robots ensure that operations run smoothly and maintain sanitary conditions, making them invaluable assets for businesses in these sectors.

Robotic Vacuum Gripper Market Trends

The robotic vacuum gripper market is currently witnessing several key trends that are shaping its future growth. One of the prominent trends is the increasing adoption of collaborative robots (cobots) in various industries. Cobots are designed to work alongside human operators, enhancing the productivity of both machines and workers. These robots often come equipped with vacuum grippers, allowing them to perform tasks that require precision and delicate handling, such as picking, placing, and sorting fragile or lightweight objects.

Another major trend is the integration of AI and machine learning with robotic vacuum grippers. With AI-powered systems, these grippers can adapt to different surfaces, shapes, and weights, improving their performance in dynamic environments. As machine learning algorithms evolve, robotic vacuum grippers are becoming smarter, enabling them to perform more complex tasks autonomously. The development of AI-based grippers is driving the growth of industries such as logistics, packaging, and even healthcare, where robots are used for various applications, including disinfection and sanitation.

Additionally, as businesses aim to reduce labor costs and improve efficiency, there is a growing emphasis on the development of robotic vacuum grippers that are capable of working in various environments, from cleanrooms to harsh industrial settings. The trend toward automation is also creating opportunities for manufacturers to create more versatile, durable, and cost-effective vacuum grippers that can withstand challenging environments and perform tasks with minimal human intervention.

Market Dynamics

The robotic vacuum gripper market is characterized by several dynamic factors that influence its growth and development. These factors include technological advancements, shifting consumer demands, and changes in global economic conditions. 

Drivers of Market Growth

There are several key drivers of growth in the robotic vacuum gripper market, including technological advancements, increasing automation, demand for precision, and the need for operational efficiency. As industries such as manufacturing, automotive, and food processing continue to embrace automation, robotic vacuum grippers have become a critical component for improving the speed and precision of production lines. Their ability to automate tasks such as sorting, material handling, and packaging has made them indispensable in modern industrial settings.

The continued development of AI, machine learning, and robotics technology has enhanced the capabilities of robotic vacuum grippers, making them more adaptable and intelligent. AI-powered vacuum grippers can now perform complex tasks such as product identification, sorting by size, and even detecting defects in objects. These advancements are driving the adoption of robotic systems across various sectors, as businesses look for ways to improve efficiency, reduce human error, and increase operational output.

The growing emphasis on safety and hygiene in industries such as food processing, pharmaceuticals, and healthcare is another factor driving the demand for robotic vacuum grippers. These systems are helping businesses maintain high hygiene standards by automating cleaning and disinfection processes. With the ongoing global focus on health and cleanliness, industries are increasingly turning to robotic vacuum grippers to enhance sanitation while maintaining operational efficiency.

Market Restraints

Despite the promising growth, the robotic vacuum gripper market faces several challenges. One of the primary restraints is the high initial cost of robotic systems. While these systems offer long-term benefits in terms of efficiency and cost savings, the upfront investment can be prohibitive for small and medium-sized enterprises (SMEs). The cost of advanced robotic vacuum grippers, including those equipped with AI and machine learning capabilities, can be a significant barrier for businesses with limited budgets.

Additionally, the complexity of robotic systems can be a challenge for some companies. The integration of robotic vacuum grippers into existing systems requires specialized knowledge and expertise, which can be a barrier for organizations that are new to automation. Training employees to operate and maintain robotic systems can also be time-consuming and costly, further complicating the adoption of these technologies.

Another restraint is the potential for technical limitations, especially in highly specialized applications. While robotic vacuum grippers are versatile, they may not be suitable for every environment or task. Some materials and surfaces may present challenges for vacuum grippers to handle effectively, limiting their use in certain industries. Additionally, the need for regular maintenance and potential downtime can be a deterrent for businesses that rely on continuous production.

Market Opportunities

The robotic vacuum gripper market presents numerous opportunities for growth, particularly in emerging industries and new applications. As industries increasingly look to automate their operations, there is a growing need for more specialized robotic solutions. The healthcare sector, for example, is expected to see significant adoption of robotic vacuum grippers for tasks such as sterilization and cleaning of medical equipment. The use of robotic systems in hospitals, laboratories, and pharmaceutical facilities is expected to rise, driving the demand for vacuum grippers that can handle delicate and sensitive objects.

Furthermore, advancements in AI and machine learning are opening up new opportunities for robotic vacuum grippers. These technologies allow vacuum grippers to handle more complex tasks, such as identifying specific products, detecting defects, and performing quality control checks. As these capabilities improve, the market will see an expansion of robotic vacuum grippers into new sectors, including retail, logistics, and agriculture.

The growing trend of e-commerce and global supply chain optimization is another area where robotic vacuum grippers can thrive. As warehouses and distribution centers continue to expand, the need for efficient material handling and packaging solutions is growing. Robotic vacuum grippers can help companies streamline their operations, reduce labor costs, and increase throughput, making them an essential tool for businesses in the logistics and e-commerce sectors.

Market Challenges

Despite the numerous opportunities, the robotic vacuum gripper market faces several challenges that may hinder its growth. One of the main challenges is the integration of robotic systems into existing infrastructure. Many businesses, particularly smaller ones, may face difficulties in adapting their production lines or warehouses to accommodate robotic vacuum grippers. The initial setup and integration costs can be a barrier for some organizations, limiting their ability to adopt these technologies.

Additionally, the rapid pace of technological advancements in robotics means that businesses must continuously invest in upgrades and new systems to stay competitive. This constant need for investment in R&D and technology can be a financial burden for companies, particularly smaller businesses that lack the resources for continuous innovation.

Another challenge is the potential resistance to automation from the workforce. While robotic systems can enhance productivity and reduce labor costs, they may also lead to job displacement, creating concerns among workers. Addressing these concerns through training and re-skilling programs will be critical to ensuring that employees can work alongside robotic systems and remain valuable assets to businesses.

Segmentation Analysis

The robotic vacuum gripper market can be segmented based on various factors such as type, application, and region. This segmentation allows for a detailed understanding of the market's dynamics, helping businesses and stakeholders make informed decisions. The market's segmentation analysis provides insights into the specific needs and trends in different sectors and regions, facilitating targeted strategies for growth. Here, we look at the key segmentation criteria for the robotic vacuum gripper market: By Type and By Application.

By Type

Electric Vacuum Grippers: Electric vacuum grippers are powered by electrical systems and motors, which provide a more energy-efficient solution compared to pneumatic systems. These grippers are widely used in applications that require precise control over suction force and are often preferred in smaller and more compact setups. Electric vacuum grippers offer enhanced flexibility in terms of configuration, making them ideal for a wide range of tasks, from handling delicate items in the electronics sector to sorting products in e-commerce warehouses. They are also beneficial in environments where air supply is limited or where there are concerns about energy consumption.

Pneumatic Vacuum Grippers: Pneumatic vacuum grippers rely on compressed air to create suction. These grippers are typically used in applications that involve handling larger or heavier objects. Pneumatic systems offer powerful and fast handling capabilities, making them well-suited for high-throughput industries like automotive manufacturing and logistics. The simplicity of the pneumatic system also makes these grippers more durable and cost-effective, particularly for large-scale operations. However, they require an air supply and are often bulkier than their electric counterparts, limiting their use in smaller or more delicate environments.

By Application

Automotive Manufacturing: In automotive manufacturing, robotic vacuum grippers are used to handle a variety of components such as car doors, seats, dashboards, and engine parts. These grippers improve the efficiency of production lines by reducing human labor and increasing the speed of assembly. The automotive sector’s demand for high precision and the ability to handle heavy parts makes robotic vacuum grippers ideal for this application.

Food and Beverage: The food and beverage industry is increasingly adopting robotic systems to automate the handling, sorting, and packaging of food products. Robotic vacuum grippers play a key role in ensuring hygiene standards are maintained while handling sensitive materials, especially in applications such as packaging and sorting. These grippers ensure that the products are handled with care while reducing the risk of contamination.

Electronics: The electronics industry requires delicate handling of small, fragile parts such as circuit boards, screens, and semiconductors. Robotic vacuum grippers are increasingly used in electronics manufacturing to perform tasks such as component placement and assembly. The precision and adaptability of these grippers make them essential in the electronics sector, where product quality and efficiency are paramount.

Pharmaceuticals: In the pharmaceutical industry, robotic vacuum grippers are used to handle medications, packaging materials, and laboratory equipment. They help maintain the required hygiene standards and prevent contamination. These grippers also facilitate the automation of critical processes, enhancing operational efficiency while reducing human error in highly regulated environments.

E-commerce: As e-commerce continues to grow, there is an increasing demand for automated solutions to handle logistics, inventory management, and packaging. Robotic vacuum grippers are extensively used in warehouses and distribution centers to automate the sorting, picking, and packing of products. These grippers help optimize warehouse operations and reduce labor costs, especially in fast-paced environments.

Packaging: In the packaging industry, robotic vacuum grippers are used to handle products that need to be sorted, wrapped, or placed into boxes. Their ability to manage irregular shapes and sizes of packages makes them valuable in ensuring quick and accurate packaging processes. Automation in this sector is driving the demand for efficient and adaptable robotic systems.

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Robotic Vacuum Gripper Market Regional Outlook

The global market for robotic vacuum grippers is experiencing rapid growth across various regions, driven by factors such as technological advancements, industrial automation, and increased demand for precision and efficiency in manufacturing processes. The key regions driving this market are North America, Europe, Asia-Pacific, and Middle East & Africa. Each region exhibits unique trends and opportunities for growth, contributing to the expansion of the global robotic vacuum gripper market.

North America

North America is one of the leading regions in the robotic vacuum gripper market, primarily driven by advancements in robotics and automation technology. The United States, in particular, is a major contributor to the growth of this market due to the increasing demand for automation in manufacturing, logistics, and e-commerce. The presence of major technology and manufacturing companies in the region is also fueling the adoption of robotic vacuum grippers. Furthermore, the emphasis on sustainability and energy-efficient solutions in North American industries is driving the demand for electric vacuum grippers, which are considered more eco-friendly and cost-effective compared to pneumatic systems.

Europe

Europe is another key region for the robotic vacuum gripper market, with strong demand coming from countries such as Germany, the UK, and France. The region is known for its advanced manufacturing capabilities and is home to many industries such as automotive, electronics, and food processing, all of which are increasingly adopting robotic systems for improved efficiency. Germany, in particular, is a leader in industrial automation and robotics, with many companies adopting robotic vacuum grippers in their production lines.

Asia-Pacific

The Asia-Pacific region is expected to experience significant growth in the robotic vacuum gripper market due to rapid industrialization and the growing emphasis on automation. Countries such as China, Japan, and South Korea are major contributors to the demand for robotic systems. The manufacturing sector in Asia-Pacific, particularly in countries like China and India, is expanding rapidly, and industries are adopting robotic vacuum grippers to improve productivity and reduce labor costs. Additionally, the region's growing e-commerce sector and increasing adoption of warehouse automation are further boosting the demand for robotic vacuum grippers.

Middle East & Africa

The Middle East and Africa are emerging markets for robotic vacuum grippers, with an increasing focus on industrial automation in countries such as the UAE, Saudi Arabia, and South Africa. The region is witnessing growth in industries such as oil and gas, manufacturing, and logistics, which are beginning to incorporate robotic systems to improve efficiency and reduce reliance on manual labor. The adoption of automation technologies, including robotic vacuum grippers, is expected to increase as industries in the Middle East and Africa aim to modernize their operations and enhance their competitiveness.

List of Key Robotic Vacuum Gripper Companies Profiled

    • Festo Corp
    • FIPA
    • Robotiq
    • Nortura
    • OnRobot
    • Applied Robotics
    • Schmalz
    • Piab AB
    • RAD
    • Millibar
    • Gripwiq
    • Bastian Solutions
    • Tecnair
    • COVAL
    • GIMATIC

COVID-19 Impact on Robotic Vacuum Gripper Market

The COVID-19 pandemic significantly impacted the robotic vacuum gripper market, both in terms of challenges and opportunities. The lockdowns and disruptions in the global supply chain slowed down manufacturing and delayed product shipments. However, the pandemic also accelerated the adoption of automation technologies as businesses sought ways to reduce reliance on human labor and enhance operational efficiency. Increased demand for contactless solutions and hygiene-conscious automation in industries like healthcare, pharmaceuticals, and food processing further stimulated the growth of robotic vacuum grippers. 

Investment Analysis and Opportunities

The robotic vacuum gripper market presents a wealth of investment opportunities due to its expanding applications in various industries, such as manufacturing, logistics, e-commerce, healthcare, and food processing. The market's potential for growth is driven by the increasing demand for automation and efficiency, the development of advanced robotics technologies, and the growing emphasis on sustainability. 

1. Increasing Demand for Automation: The global push toward automation across industries presents a prime investment opportunity in the robotic vacuum gripper market. As companies strive to reduce labor costs and increase efficiency, there is a clear trend toward the adoption of robotic systems, including vacuum grippers. This trend is particularly prominent in high-labor sectors such as manufacturing, logistics, and e-commerce. As automation technologies become more affordable and accessible, businesses of all sizes are expected to invest in robotic solutions.

2. Technological Advancements in Robotics: The rapid advancements in robotics technology, including artificial intelligence (AI), machine learning (ML), and Internet of Things (IoT) integration, open new opportunities for innovation in the robotic vacuum gripper market. As AI and ML technologies enhance the capabilities of robotic systems, the demand for smarter and more adaptable vacuum grippers will grow. Investors can benefit by supporting companies that are focused on developing these advanced technologies and enhancing the precision and efficiency of robotic vacuum grippers.

3. Industrial Automation in Emerging Markets: Emerging markets, particularly in Asia-Pacific and Latin America, present significant growth opportunities for the robotic vacuum gripper market. These regions are experiencing rapid industrialization, and there is an increasing focus on improving production processes through automation. As companies in countries like China, India, and Brazil seek to modernize their operations, they are likely to adopt robotic vacuum grippers for material handling, packaging, and assembly tasks. Investments in these markets, particularly in local companies offering robotic solutions, hold great potential for growth.

4. Expansion in E-Commerce and Logistics: The growth of the e-commerce industry and the ongoing transformation of global supply chains are driving the need for automated solutions in warehousing and logistics. The demand for robotic systems that can sort, pick, and pack products efficiently is growing rapidly. Robotic vacuum grippers are central to these processes, as they enable precise handling and packaging. Investing in companies that cater to the e-commerce and logistics sectors offers opportunities for high returns, particularly as online retail continues to grow.

Recent Developments

    • OnRobot launched a new range of robotic vacuum grippers in 2023, featuring enhanced flexibility and precision for delicate material handling. These new grippers are equipped with advanced AI technology, enabling them to adapt to various surfaces and materials.

    • Festo Corp announced the introduction of a new electric vacuum gripper, designed for small-scale material handling tasks in industries like electronics and pharmaceuticals. The new model is smaller, more energy-efficient, and offers greater precision compared to traditional pneumatic grippers.

    • FIPA unveiled a new line of robotic vacuum grippers in late 2023, focusing on increased automation capabilities for large-scale manufacturing and logistics operations. The grippers are designed to handle larger and heavier loads, making them ideal for the automotive and aerospace sectors.

    • Piab AB expanded its product portfolio with the launch of a new line of modular robotic vacuum grippers, which allow customers to customize their automation solutions based on specific application needs. 

    • Applied Robotics introduced a new software interface for its robotic vacuum grippers, enabling faster integration with robotic arms and greater ease of use for operators. The new software simplifies the setup and programming process, making it accessible for companies new to automation.

REPORT COVERAGE of Robotic Vacuum Gripper Market

The report on the Robotic Vacuum Gripper Market provides a comprehensive analysis of the market dynamics, trends, growth drivers, and challenges. It covers a wide range of factors influencing the market's expansion, including technological advancements, industrial adoption, and regional developments. Key insights are offered into the market's segmentation by type and application, providing a detailed view of market opportunities in various industries, such as automotive, electronics, and food processing.

The report also covers the competitive landscape, profiling key players in the market, their product offerings, market share, and recent developments. Key companies, such as Festo Corp, OnRobot, and Schmalz, are analyzed in detail, with information on their strategies, partnerships, and innovations. The report provides data on the market's historical and forecasted growth, helping stakeholders understand the future potential of the robotic vacuum gripper market.

NEW PRODUCTS

OnRobot RG2-FT (Force Torque Sensor): OnRobot launched the RG2-FT in early 2024, a next-generation vacuum gripper with built-in force and torque sensors. This allows for more precise handling of delicate or fragile objects, which is especially beneficial for applications in electronics manufacturing and packaging. The RG2-FT is designed to enhance the flexibility and adaptability of robotic systems, enabling them to automatically adjust suction power based on the object’s weight or surface.

FIPA Vacuum Grippers with Enhanced Customization: In 2023, FIPA introduced a new line of customizable vacuum grippers that can be tailored to specific customer needs. These grippers are modular and allow for easy adjustments in terms of size, shape, and suction strength. The customizable features make them particularly suitable for industries where a wide variety of objects need to be handled, including automotive, logistics, and consumer goods.

Piab AB PiGripper: Piab AB launched an innovative vacuum gripper, PiGripper, designed specifically for lightweight and precise handling. The PiGripper features an advanced sensing technology that helps robots detect objects with high precision, improving the overall efficiency of material handling processes. This gripper is well-suited for industries such as electronics, where delicate parts require careful handling.

Schmalz Vacuum Grippers with Intelligent Control Systems: Schmalz launched a new range of vacuum grippers integrated with intelligent control systems. These vacuum grippers use AI to dynamically adjust their suction capacity, ensuring that they can handle a wide range of materials with varying sizes, shapes, and weights. This innovation is particularly useful for industries such as logistics and e-commerce, where the need for high throughput and versatility is paramount.

Robotic Vacuum Gripper Market Report Detailed Segmentation
Report Coverage Report Details

By Applications Covered

Warehouse Logistics, Food, Manufacturing, Others,

By Type Covered

Miniature Electromechanical Pump, Compressed Air-Driven Pump,

No. of Pages Covered

100

Forecast Period Covered

2024 to 2032

Growth Rate Covered

CAGR of 36.2% during the forecast period

Value Projection Covered

USD 923.63 million by 2032

Historical Data Available for

2019 to 2023

Region Covered

North America, Europe, Asia-Pacific, South America, Middle East, Africa

Countries Covered

U.S. ,Canada, Germany,U.K.,France, Japan , China , India, South Africa , Brazil

Frequently Asked Questions

  • What value is the Robotic Vacuum Gripper market expected to touch by 2032?

    The global Robotic Vacuum Gripper market is expected to reach USD 923.63 Million by 2032.

  • What CAGR is the Robotic Vacuum Gripper market expected to exhibit by 2032?

    The Robotic Vacuum Gripper market is expected to exhibit a CAGR of 36.2% by 2032.

  • Which are the key players or most dominating companies functioning in the Robotic Vacuum Gripper market?

    Festo Corp, FIPA, Robotiq, Nortura, OnRobot, Applied Robotics, Schmalz, Piab AB, RAD, Millibar, Gripwiq, Bastian Solutions, Tecnair, COVAL, GIMATIC,

  • What was the value of the Robotic Vacuum Gripper market in 2023?

    In 2023, the Robotic Vacuum Gripper market value stood at USD 57 Million.

What is included in this Sample?

  • * Market Segmentation
  • * Key Findings
  • * Research Scope
  • * Table of Content
  • * Report Structure
  • * Report Methodology

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  • Sint Maarten+1721
  • Slovakia (Slovensko)+421
  • Slovenia (Slovenija)+386
  • Solomon Islands+677
  • Somalia (Soomaaliya)+252
  • South Africa+27
  • South Korea (대한민국)+82
  • South Sudan (‫جنوب السودان‬‎)+211
  • Spain (España)+34
  • Sri Lanka (ශ්‍රී ලංකාව)+94
  • Sudan (‫السودان‬‎)+249
  • Suriname+597
  • Svalbard and Jan Mayen+47
  • Swaziland+268
  • Sweden (Sverige)+46
  • Switzerland (Schweiz)+41
  • Syria (‫سوريا‬‎)+963
  • Taiwan (台灣)+886
  • Tajikistan+992
  • Tanzania+255
  • Thailand (ไทย)+66
  • Timor-Leste+670
  • Togo+228
  • Tokelau+690
  • Tonga+676
  • Trinidad and Tobago+1868
  • Tunisia (‫تونس‬‎)+216
  • Turkey (Türkiye)+90
  • Turkmenistan+993
  • Turks and Caicos Islands+1649
  • Tuvalu+688
  • U.S. Virgin Islands+1340
  • Uganda+256
  • Ukraine (Україна)+380
  • United Arab Emirates (‫الإمارات العربية المتحدة‬‎)+971
  • United Kingdom+44
  • United States+1
  • Uruguay+598
  • Uzbekistan (Oʻzbekiston)+998
  • Vanuatu+678
  • Vatican City (Città del Vaticano)+39
  • Venezuela+58
  • Vietnam (Việt Nam)+84
  • Wallis and Futuna (Wallis-et-Futuna)+681
  • Western Sahara (‫الصحراء الغربية‬‎)+212
  • Yemen (‫اليمن‬‎)+967
  • Zambia+260
  • Zimbabwe+263
  • Åland Islands+358
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